btop/src/btop_draw.cpp

2031 lines
87 KiB
C++

/* Copyright 2021 Aristocratos (jakob@qvantnet.com)
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
indent = tab
tab-size = 4
*/
#include <array>
#include <algorithm>
#include <cmath>
#include <ranges>
#include <btop_draw.hpp>
#include <btop_config.hpp>
#include <btop_theme.hpp>
#include <btop_shared.hpp>
#include <btop_tools.hpp>
#include <btop_input.hpp>
#include <btop_menu.hpp>
#include <stdexcept>
using std::array;
using std::clamp;
using std::cmp_equal;
using std::cmp_greater;
using std::cmp_less;
using std::cmp_less_equal;
using std::floor;
using std::max;
using std::min;
using std::round;
using std::to_string;
using std::views::iota;
using namespace Tools;
using namespace std::literals; // for operator""s
namespace rng = std::ranges;
namespace Symbols {
const string meter = "";
const array<string, 10> superscript = { "", "¹", "²", "³", "", "", "", "", "", "" };
const unordered_flat_map<string, vector<string>> graph_symbols = {
{ "braille_up", {
" ", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", ""
}},
{"braille_down", {
" ", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", ""
}},
{"block_up", {
" ", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", ""
}},
{"block_down", {
" ", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", ""
}},
{"tty_up", {
" ", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", ""
}},
{"tty_down", {
" ", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", "",
"", "", "", "", ""
}}
};
}
namespace Draw {
string banner_gen(int y, int x, bool centered, bool redraw) {
static string banner;
static size_t width = 0;
if (redraw) banner.clear();
if (banner.empty()) {
string b_color, bg, fg, oc, letter;
auto lowcolor = Config::getB("lowcolor");
auto tty_mode = Config::getB("tty_mode");
for (size_t z = 0; const auto& line : Global::Banner_src) {
if (const auto w = ulen(line[1]); w > width) width = w;
if (tty_mode) {
fg = (z > 2) ? "\x1b[31m" : "\x1b[91m";
bg = (z > 2) ? "\x1b[90m" : "\x1b[37m";
}
else {
fg = Theme::hex_to_color(line[0], lowcolor);
int bg_i = 120 - z * 12;
bg = Theme::dec_to_color(bg_i, bg_i, bg_i, lowcolor);
}
for (size_t i = 0; i < line[1].size(); i += 3) {
if (line[1][i] == ' ') {
letter = Mv::r(1);
i -= 2;
}
else
letter = line[1].substr(i, 3);
b_color = (letter == "") ? fg : bg;
if (b_color != oc) banner += b_color;
banner += letter;
oc = b_color;
}
if (++z < Global::Banner_src.size()) banner += Mv::l(ulen(line[1])) + Mv::d(1);
}
banner += Mv::r(18 - Global::Version.size())
+ Theme::c("main_fg") + Fx::b + Fx::i + "v" + Global::Version + Fx::reset;
}
if (redraw) return "";
return (centered ? Mv::to(y, Term::width / 2 - width / 2) : Mv::to(y, x)) + banner;
}
TextEdit::TextEdit() {}
TextEdit::TextEdit(string text, bool numeric) : numeric(numeric), text(text) {
pos = this->text.size();
upos = ulen(this->text);
}
bool TextEdit::command(const string& key) {
if (key == "left" and upos > 0) {
upos--;
pos = uresize(text, upos).size();
}
else if (key == "right" and pos < text.size()) {
upos++;
pos = uresize(text, upos).size();
}
else if (key == "home" and pos > 0) {
pos = upos = 0;
}
else if (key == "end" and pos < text.size()) {
pos = text.size();
upos = ulen(text);
}
else if (key == "backspace" and pos > 0) {
if (pos == text.size()) {
text = uresize(text, --upos);
pos = text.size();
}
else {
const string first = uresize(text, --upos);
pos = first.size();
text = first + luresize(text.substr(pos), ulen(text) - upos - 1);
}
}
else if (key == "delete" and pos < text.size()) {
const string first = uresize(text, upos + 1);
text = uresize(first, ulen(first) - 1) + text.substr(first.size());
}
else if (key == "space" and not numeric) {
text.insert(pos++, 1, ' ');
upos++;
}
else if (ulen(key) == 1 and text.size() < text.max_size() - 20) {
if (numeric and not isint(key)) return false;
if (key.size() == 1) {
text.insert(pos++, 1, key.at(0));
upos++;
}
else {
const string first = uresize(text, upos) + key;
text = first + text.substr(pos);
upos++;
pos = first.size();
}
}
else
return false;
return true;
}
string TextEdit::operator()(const size_t limit) {
if (limit > 0 and ulen(text) + 1 > limit) {
try {
const size_t half = (size_t)round((double)limit / 2);
string first;
if (upos + half > ulen(text))
first = luresize(text.substr(0, pos), limit - (ulen(text) - upos));
else if (upos - half < 1)
first = text.substr(0, pos);
else
first = luresize(text.substr(0, pos), half);
return first + Fx::bl + "" + Fx::ubl + uresize(text.substr(pos), limit - ulen(first));
}
catch (const std::exception& e) {
Logger::error("In TextEdit::operator() : " + string{e.what()});
}
}
return text.substr(0, pos) + Fx::bl + "" + Fx::ubl + text.substr(pos);
}
void TextEdit::clear() {
this->text.clear();
}
string createBox(const int x, const int y, const int width,
const int height, string line_color, bool fill,
const string title, const string title2, const int num) {
string out;
if (line_color.empty())
line_color = Theme::c("div_line");
auto tty_mode = Config::getB("tty_mode");
auto rounded = Config::getB("rounded_corners");
const string numbering = (num == 0) ? "" : Theme::c("hi_fg") + (tty_mode ? std::to_string(num) : Symbols::superscript.at(clamp(num, 0, 9)));
const auto& right_up = (tty_mode or not rounded ? Symbols::right_up : Symbols::round_right_up);
const auto& left_up = (tty_mode or not rounded ? Symbols::left_up : Symbols::round_left_up);
const auto& right_down = (tty_mode or not rounded ? Symbols::right_down : Symbols::round_right_down);
const auto& left_down = (tty_mode or not rounded ? Symbols::left_down : Symbols::round_left_down);
out = Fx::reset + line_color;
//? Draw horizontal lines
for (const int& hpos : {y, y + height - 1}) {
out += Mv::to(hpos, x) + Symbols::h_line * (width - 1);
}
//? Draw vertical lines and fill if enabled
for (const int& hpos : iota(y + 1, y + height - 1)) {
out += Mv::to(hpos, x) + Symbols::v_line
+ ((fill) ? string(width - 2, ' ') : Mv::r(width - 2))
+ Symbols::v_line;
}
//? Draw corners
out += Mv::to(y, x) + left_up
+ Mv::to(y, x + width - 1) + right_up
+ Mv::to(y + height - 1, x) +left_down
+ Mv::to(y + height - 1, x + width - 1) + right_down;
//? Draw titles if defined
if (not title.empty()) {
out += Mv::to(y, x + 2) + Symbols::title_left + Fx::b + numbering + Theme::c("title") + title
+ Fx::ub + line_color + Symbols::title_right;
}
if (not title2.empty()) {
out += Mv::to(y + height - 1, x + 2) + Symbols::title_left_down + Fx::b + numbering + Theme::c("title") + title2
+ Fx::ub + line_color + Symbols::title_right_down;
}
return out + Fx::reset + Mv::to(y + 1, x + 1);
}
bool update_clock(bool force) {
const auto& clock_format = Config::getS("clock_format");
if (not Cpu::shown or clock_format.empty()) {
if (clock_format.empty() and not Global::clock.empty()) Global::clock.clear();
return false;
}
static const unordered_flat_map<string, string> clock_custom_format = {
{"/user", Tools::username()},
{"/host", Tools::hostname()},
{"/uptime", ""}
};
static time_t c_time{}; // defaults to 0
static size_t clock_len{}; // defaults to 0
static string clock_str;
if (auto n_time = time(NULL); not force and n_time == c_time)
return false;
else {
c_time = n_time;
const auto new_clock = Tools::strf_time(clock_format);
if (not force and new_clock == clock_str) return false;
clock_str = new_clock;
}
auto& out = Global::clock;
auto cpu_bottom = Config::getB("cpu_bottom");
const auto& x = Cpu::x;
const auto y = (cpu_bottom ? Cpu::y + Cpu::height - 1 : Cpu::y);
const auto& width = Cpu::width;
const auto& title_left = (cpu_bottom ? Symbols::title_left_down : Symbols::title_left);
const auto& title_right = (cpu_bottom ? Symbols::title_right_down : Symbols::title_right);
for (const auto& [c_format, replacement] : clock_custom_format) {
if (s_contains(clock_str, c_format)) {
if (c_format == "/uptime") {
string upstr = sec_to_dhms(system_uptime());
if (upstr.size() > 8) upstr.resize(upstr.size() - 3);
clock_str = s_replace(clock_str, c_format, upstr);
}
else {
clock_str = s_replace(clock_str, c_format, replacement);
}
}
}
clock_str = uresize(clock_str, std::max(10, width - 66 - (Term::width >= 100 and Config::getB("show_battery") and Cpu::has_battery ? 22 : 0)));
out.clear();
if (clock_str.size() != clock_len) {
if (not Global::resized and clock_len > 0)
out = Mv::to(y, x+(width / 2)-(clock_len / 2)) + Fx::ub + Theme::c("cpu_box") + Symbols::h_line * clock_len;
clock_len = clock_str.size();
}
out += Mv::to(y, x+(width / 2)-(clock_len / 2)) + Fx::ub + Theme::c("cpu_box") + title_left
+ Theme::c("title") + Fx::b + clock_str + Theme::c("cpu_box") + Fx::ub + title_right;
return true;
}
//* Meter class ------------------------------------------------------------------------------------------------------------>
Meter::Meter() {}
Meter::Meter(const int width, const string& color_gradient, bool invert)
: width(width), color_gradient(color_gradient), invert(invert) {}
string Meter::operator()(int value) {
if (width < 1) return "";
value = clamp(value, 0, 100);
if (not cache.at(value).empty()) return cache.at(value);
auto& out = cache.at(value);
for (const int& i : iota(1, width + 1)) {
int y = round((double)i * 100.0 / width);
if (value >= y)
out += Theme::g(color_gradient).at(invert ? 100 - y : y) + Symbols::meter;
else {
out += Theme::c("meter_bg") + Symbols::meter * (width + 1 - i);
break;
}
}
out += Fx::reset;
return out;
}
//* Graph class ------------------------------------------------------------------------------------------------------------>
void Graph::_create(const deque<long long>& data, int data_offset) {
bool mult = (data.size() - data_offset > 1);
const auto& graph_symbol = Symbols::graph_symbols.at(symbol + '_' + (invert ? "down" : "up"));
array<int, 2> result;
const float mod = (height == 1) ? 0.3 : 0.1;
long long data_value = 0;
if (mult and data_offset > 0) {
last = data.at(data_offset - 1);
if (max_value > 0) last = clamp((last + offset) * 100 / max_value, 0ll, 100ll);
}
//? Horizontal iteration over values in <data>
for (const int& i : iota(data_offset, (int)data.size())) {
// if (tty_mode and mult and i % 2 != 0) continue;
if (not tty_mode and mult) current = not current;
if (i < 0) {
data_value = 0;
last = 0;
}
else {
data_value = data.at(i);
if (max_value > 0) data_value = clamp((data_value + offset) * 100 / max_value, 0ll, 100ll);
}
//? Vertical iteration over height of graph
for (const int& horizon : iota(0, height)) {
const int cur_high = (height > 1) ? round(100.0 * (height - horizon) / height) : 100;
const int cur_low = (height > 1) ? round(100.0 * (height - (horizon + 1)) / height) : 0;
//? Calculate previous + current value to fit two values in 1 braille character
for (int ai = 0; const auto& value : {last, data_value}) {
const int clamp_min = (no_zero and horizon == height - 1 and not (mult and i == data_offset and ai == 0)) ? 1 : 0;
if (value >= cur_high)
result[ai++] = 4;
else if (value <= cur_low)
result[ai++] = clamp_min;
else {
result[ai++] = clamp((int)round((float)(value - cur_low) * 4 / (cur_high - cur_low) + mod), clamp_min, 4);
}
}
//? Generate graph symbol from 5x5 2D vector
if (height == 1) {
if (result.at(0) + result.at(1) == 0) graphs.at(current).at(horizon) += Mv::r(1);
else {
if (not color_gradient.empty()) graphs.at(current).at(horizon) += Theme::g(color_gradient).at(clamp(max(last, data_value), 0ll, 100ll));
graphs.at(current).at(horizon) += graph_symbol.at((result.at(0) * 5 + result.at(1)));
}
}
else graphs.at(current).at(horizon) += graph_symbol.at((result.at(0) * 5 + result.at(1)));
}
if (mult and i >= 0) last = data_value;
}
last = data_value;
out.clear();
if (height == 1) {
//if (not color_gradient.empty())
// out += (last < 1 ? Theme::c("inactive_fg") : Theme::g(color_gradient).at(clamp(last, 0ll, 100ll)));
out += graphs.at(current).at(0);
}
else {
for (const int& i : iota(1, height + 1)) {
if (i > 1) out += Mv::d(1) + Mv::l(width);
if (not color_gradient.empty())
out += (invert) ? Theme::g(color_gradient).at(i * 100 / height) : Theme::g(color_gradient).at(100 - ((i - 1) * 100 / height));
out += (invert) ? graphs.at(current).at(height - i) : graphs.at(current).at(i-1);
}
}
if (not color_gradient.empty()) out += Fx::reset;
}
Graph::Graph() {}
Graph::Graph(int width, int height, const string& color_gradient,
const deque<long long>& data, const string& symbol,
bool invert, bool no_zero, long long max_value, long long offset)
: width(width), height(height), color_gradient(color_gradient),
invert(invert), no_zero(no_zero), offset(offset) {
if (Config::getB("tty_mode") or symbol == "tty") this->symbol = "tty";
else if (symbol != "default") this->symbol = symbol;
else this->symbol = Config::getS("graph_symbol");
if (this->symbol == "tty") tty_mode = true;
if (max_value == 0 and offset > 0) max_value = 100;
this->max_value = max_value;
const int value_width = (tty_mode ? data.size() : ceil((double)data.size() / 2));
int data_offset = (value_width > width) ? data.size() - width * (tty_mode ? 1 : 2) : 0;
if (not tty_mode and (data.size() - data_offset) % 2 != 0) {
data_offset--;
}
//? Populate the two switching graph vectors and fill empty space if data size < width
for (const int& i : iota(0, height * 2)) {
if (tty_mode and i % 2 != current) continue;
graphs[(i % 2 != 0)].push_back((value_width < width) ? ((height == 1) ? Mv::r(1) : " "s) * (width - value_width) : "");
}
if (data.size() == 0) return;
this->_create(data, data_offset);
}
string& Graph::operator()(const deque<long long>& data, bool data_same) {
if (data_same) return out;
//? Make room for new characters on graph
if (not tty_mode) current = not current;
for (const int& i : iota(0, height)) {
if (height == 1 and graphs.at(current).at(i).at(1) == '[') {
if (graphs.at(current).at(i).at(3) == 'C') graphs.at(current).at(i).erase(0, 4);
else graphs.at(current).at(i).erase(0, graphs.at(current).at(i).find_first_of('m') + 4);
}
else if (graphs.at(current).at(i).at(0) == ' ') graphs.at(current).at(i).erase(0, 1);
else graphs.at(current).at(i).erase(0, 3);
}
this->_create(data, (int)data.size() - 1);
return out;
}
string& Graph::operator()() {
return out;
}
//*------------------------------------------------------------------------------------------------------------------------->
}
namespace Cpu {
int width_p = 100, height_p = 32;
int min_width = 60, min_height = 8;
int x = 1, y = 1, width = 20, height;
int b_columns, b_column_size;
int b_x, b_y, b_width, b_height;
long unsigned int lavg_str_len = 0;
int graph_up_height, graph_low_height;
int graph_up_width, graph_low_width;
bool shown = true, redraw = true, mid_line = false;
string box;
vector<Draw::Graph> graphs_upper;
vector<Draw::Graph> graphs_lower;
Draw::Meter cpu_meter;
vector<Draw::Meter> gpu_meters;
vector<Draw::Graph> core_graphs;
vector<Draw::Graph> temp_graphs;
vector<Draw::Graph> gpu_temp_graphs;
vector<Draw::Graph> gpu_mem_graphs;
string draw(const cpu_info& cpu, const vector<Gpu::gpu_info>& gpus, bool force_redraw, bool data_same) {
if (Runner::stopping) return "";
if (force_redraw) redraw = true;
bool show_temps = (Config::getB("check_temp") and got_sensors);
auto single_graph = Config::getB("cpu_single_graph");
bool hide_cores = show_temps and (cpu_temp_only or not Config::getB("show_coretemp"));
const int extra_width = (hide_cores ? max(6, 6 * b_column_size) : 0);
auto& graph_up_field = Config::getS("cpu_graph_upper");
auto& graph_lo_field = Config::getS("cpu_graph_lower");
auto tty_mode = Config::getB("tty_mode");
auto& graph_symbol = (tty_mode ? "tty" : Config::getS("graph_symbol_cpu"));
auto& graph_bg = Symbols::graph_symbols.at((graph_symbol == "default" ? Config::getS("graph_symbol") + "_up" : graph_symbol + "_up")).at(6);
auto& temp_scale = Config::getS("temp_scale");
auto cpu_bottom = Config::getB("cpu_bottom");
const string& title_left = Theme::c("cpu_box") + (cpu_bottom ? Symbols::title_left_down : Symbols::title_left);
const string& title_right = Theme::c("cpu_box") + (cpu_bottom ? Symbols::title_right_down : Symbols::title_right);
static int bat_pos = 0, bat_len = 0;
if (cpu.cpu_percent.at("total").empty()
or cpu.core_percent.at(0).empty()
or (show_temps and cpu.temp.at(0).empty())) return "";
string out;
out.reserve(width * height);
//* Redraw elements not needed to be updated every cycle
if (redraw) {
mid_line = (not single_graph and graph_up_field != graph_lo_field);
graph_up_height = (single_graph ? height - 2 : ceil((double)(height - 2) / 2) - (mid_line and height % 2 != 0));
graph_low_height = height - 2 - graph_up_height - mid_line;
const int button_y = cpu_bottom ? y + height - 1 : y;
out += box;
//? Buttons on title
out += Mv::to(button_y, x + 10) + title_left + Theme::c("hi_fg") + Fx::b + 'm' + Theme::c("title") + "enu" + Fx::ub + title_right;
Input::mouse_mappings["m"] = {button_y, x + 11, 1, 4};
out += Mv::to(button_y, x + 16) + title_left + Theme::c("hi_fg") + Fx::b + 'p' + Theme::c("title") + "reset "
+ (Config::current_preset < 0 ? "*" : to_string(Config::current_preset)) + Fx::ub + title_right;
Input::mouse_mappings["p"] = {button_y, x + 17, 1, 8};
const string update = to_string(Config::getI("update_ms")) + "ms";
out += Mv::to(button_y, x + width - update.size() - 8) + title_left + Fx::b + Theme::c("hi_fg") + "- " + Theme::c("title") + update
+ Theme::c("hi_fg") + " +" + Fx::ub + title_right;
Input::mouse_mappings["-"] = {button_y, x + width - (int)update.size() - 7, 1, 2};
Input::mouse_mappings["+"] = {button_y, x + width - 5, 1, 2};
//? Graphs & meters
const int graph_default_width = x + width - b_width - 3;
auto init_graphs = [&](vector<Draw::Graph>& graphs, const int graph_height, int& graph_width, const string& graph_field, bool invert) {
if (graph_field == "gpu-totals") {
graphs.resize(gpus.size());
gpu_temp_graphs.resize(gpus.size());
gpu_mem_graphs.resize(gpus.size());
gpu_meters.resize(gpus.size());
graph_width = graph_default_width/(int)gpus.size() - (int)gpus.size() + 1 + graph_default_width%gpus.size();
for (unsigned long i = 0;;) {
auto& gpu = gpus[i]; auto& graph = graphs[i];
//? GPU graphs/meters
gpu_temp_graphs[i] = Draw::Graph{ 5, 1, "temp", gpu.temp, graph_symbol, false, false, gpu.temp_max, -23 };
gpu_mem_graphs[i] = Draw::Graph{ 5, 1, "used", gpu.mem_used_percent, graph_symbol };
gpu_meters[i] = Draw::Meter{ b_width - 12 - (int)floating_humanizer(gpu.mem_total, true).size() - (show_temps ? 24 : 12) - (int)to_string(i).size(), "cpu" };
if (++i < gpus.size())
graph = Draw::Graph{graph_width, graph_height, "cpu", gpu.gpu_percent, graph_symbol, invert, true};
else {
graph = Draw::Graph{
graph_width + graph_default_width%graph_width - (int)gpus.size() + 1,
graph_height, "cpu", gpu.gpu_percent, graph_symbol, invert, true
};
break;
}
}
} else if (graph_field == "gpu-average") {
graphs.resize(1);
graph_width = graph_default_width;
graphs[0] = Draw::Graph{ graph_width, graph_height, "cpu", Gpu::average_gpu_percent, graph_symbol, invert, true };
gpu_temp_graphs.resize(gpus.size());
gpu_mem_graphs.resize(gpus.size());
gpu_meters.resize(gpus.size());
for (unsigned long i = 0; i < gpus.size(); ++i) {
gpu_temp_graphs[i] = Draw::Graph{ 5, 1, "temp", gpus[i].temp, graph_symbol, false, false, gpus[i].temp_max, -23 };
gpu_mem_graphs[i] = Draw::Graph{ 5, 1, "used", gpus[i].mem_used_percent, graph_symbol };
gpu_meters[i] = Draw::Meter{ b_width - 12 - (int)floating_humanizer(gpus[i].mem_total, true).size() - (show_temps ? 24 : 12) - (int)to_string(i).size(), "cpu" };
}
} else {
graphs.resize(1);
graph_width = graph_default_width;
graphs[0] = Draw::Graph{ graph_width, graph_height, "cpu", cpu.cpu_percent.at(graph_field), graph_symbol, invert, true };
}
};
init_graphs(graphs_upper, graph_up_height, graph_up_width, graph_up_field, false);
if (not single_graph)
init_graphs(graphs_lower, graph_low_height, graph_low_width, graph_lo_field, Config::getB("cpu_invert_lower"));
cpu_meter = Draw::Meter{b_width - (show_temps ? 23 - (b_column_size <= 1 and b_columns == 1 ? 6 : 0) : 11), "cpu"};
if (mid_line) {
out += Mv::to(y + graph_up_height + 1, x) + Fx::ub + Theme::c("cpu_box") + Symbols::div_left + Theme::c("div_line")
+ Symbols::h_line * (width - b_width - 2) + Symbols::div_right
+ Mv::to(y + graph_up_height + 1, x + ((width - b_width) / 2) - ((graph_up_field.size() + graph_lo_field.size()) / 2) - 4)
+ Theme::c("main_fg") + graph_up_field + Mv::r(1) + "▲▼" + Mv::r(1) + graph_lo_field;
}
if (b_column_size > 0 or extra_width > 0) {
core_graphs.clear();
for (const auto& core_data : cpu.core_percent) {
core_graphs.emplace_back(5 * b_column_size + extra_width, 1, "cpu", core_data, graph_symbol);
}
}
if (show_temps) {
temp_graphs.clear();
temp_graphs.emplace_back(5, 1, "temp", cpu.temp.at(0), graph_symbol, false, false, cpu.temp_max, -23);
if (not hide_cores and b_column_size > 1) {
for (const auto& i : iota((size_t)1, cpu.temp.size())) {
temp_graphs.emplace_back(5, 1, "temp", cpu.temp.at(i), graph_symbol, false, false, cpu.temp_max, -23);
}
}
}
}
//? Draw battery if enabled and present
if (Config::getB("show_battery") and has_battery) {
static int old_percent{}; // defaults to = 0
static long old_seconds{}; // defaults to = 0
static string old_status;
static Draw::Meter bat_meter {10, "cpu", true};
static const unordered_flat_map<string, string> bat_symbols = {
{"charging", ""},
{"discharging", ""},
{"full", ""},
{"unknown", ""}
};
const auto& [percent, seconds, status] = current_bat;
if (redraw or percent != old_percent or seconds != old_seconds or status != old_status) {
old_percent = percent;
old_seconds = seconds;
old_status = status;
const string str_time = (seconds > 0 ? sec_to_dhms(seconds, true, true) : "");
const string str_percent = to_string(percent) + '%';
const auto& bat_symbol = bat_symbols.at((bat_symbols.contains(status) ? status : "unknown"));
const int current_len = (Term::width >= 100 ? 11 : 0) + str_time.size() + str_percent.size() + to_string(Config::getI("update_ms")).size();
const int current_pos = Term::width - current_len - 17;
if ((bat_pos != current_pos or bat_len != current_len) and bat_pos > 0 and not redraw)
out += Mv::to(y, bat_pos) + Fx::ub + Theme::c("cpu_box") + Symbols::h_line * (bat_len + 4);
bat_pos = current_pos;
bat_len = current_len;
out += Mv::to(y, bat_pos) + title_left + Theme::c("title") + Fx::b + "BAT" + bat_symbol + ' ' + str_percent
+ (Term::width >= 100 ? Fx::ub + ' ' + bat_meter(percent) + Fx::b : "")
+ (not str_time.empty() ? ' ' + Theme::c("title") + str_time : " ") + Fx::ub + title_right;
}
}
else if (bat_pos > 0) {
out += Mv::to(y, bat_pos) + Fx::ub + Theme::c("cpu_box") + Symbols::h_line * (bat_len + 4);
bat_pos = bat_len = 0;
}
try {
//? Cpu/Gpu graphs
out += Fx::ub + Mv::to(y + 1, x + 1);
auto draw_graphs = [&](vector<Draw::Graph>& graphs, const int graph_height, const int graph_width, const string& graph_field) {
if (graph_field == "gpu-totals")
for (unsigned long i = 0;;) {
out += graphs[i](gpus[i].gpu_percent, (data_same or redraw));
if (gpus.size() > 1) {
auto i_str = to_string(i);
out += Mv::l(graph_width-1) + Mv::u(graph_height/2) + (graph_width > 5 ? "GPU " : "") + i_str
+ Mv::d(graph_height/2) + Mv::r(graph_width - 1 - (graph_width > 5)*4 - i_str.size());
}
if (++i < graphs.size())
out += Theme::c("div_line") + (Symbols::v_line + Mv::l(1) + Mv::u(1))*graph_height + Mv::r(1) + Mv::d(1);
else break;
}
else out += graphs[0]((graph_field == "gpu-average" ? Gpu::average_gpu_percent : cpu.cpu_percent.at(graph_field)), (data_same or redraw));
};
draw_graphs(graphs_upper, graph_up_height, graph_up_width, graph_up_field);
if (not single_graph) {
out += Mv::to(y + graph_up_height + 1 + mid_line, x + 1);
draw_graphs(graphs_lower, graph_low_height, graph_low_width, graph_lo_field);
}
//? Uptime
if (Config::getB("show_uptime")) {
string upstr = sec_to_dhms(system_uptime());
if (upstr.size() > 8) {
upstr.resize(upstr.size() - 3);
upstr = trans(upstr);
}
out += Mv::to(y + (single_graph or not Config::getB("cpu_invert_lower") ? 1 : height - 2), x + 2)
+ Theme::c("graph_text") + "up" + Mv::r(1) + upstr;
}
//? Cpu clock and cpu meter
if (Config::getB("show_cpu_freq") and not cpuHz.empty())
out += Mv::to(b_y, b_x + b_width - 10) + Fx::ub + Theme::c("div_line") + Symbols::h_line * (7 - cpuHz.size())
+ Symbols::title_left + Fx::b + Theme::c("title") + cpuHz + Fx::ub + Theme::c("div_line") + Symbols::title_right;
out += Mv::to(b_y + 1, b_x + 1) + Theme::c("main_fg") + Fx::b + "CPU " + cpu_meter(cpu.cpu_percent.at("total").back())
+ Theme::g("cpu").at(clamp(cpu.cpu_percent.at("total").back(), 0ll, 100ll)) + rjust(to_string(cpu.cpu_percent.at("total").back()), 4) + Theme::c("main_fg") + '%';
if (show_temps) {
const auto [temp, unit] = celsius_to(cpu.temp.at(0).back(), temp_scale);
const auto& temp_color = Theme::g("temp").at(clamp(cpu.temp.at(0).back() * 100 / cpu.temp_max, 0ll, 100ll));
if (b_column_size > 1 or b_columns > 1)
out += ' ' + Theme::c("inactive_fg") + graph_bg * 5 + Mv::l(5) + temp_color
+ temp_graphs.at(0)(cpu.temp.at(0), data_same or redraw);
out += rjust(to_string(temp), 4) + Theme::c("main_fg") + unit;
}
out += Theme::c("div_line") + Symbols::v_line;
} catch (const std::exception& e) { throw std::runtime_error("graphs, clock, meter : " + string{e.what()}); }
//? Core text and graphs
int cx = 0, cy = 1, cc = 0, core_width = (b_column_size == 0 ? 2 : 3);
if (Shared::coreCount >= 100) core_width++;
for (const auto& n : iota(0, Shared::coreCount)) {
out += Mv::to(b_y + cy + 1, b_x + cx + 1) + Theme::c("main_fg") + (Shared::coreCount < 100 ? Fx::b + 'C' + Fx::ub : "")
+ ljust(to_string(n), core_width);
if (b_column_size > 0 or extra_width > 0)
out += Theme::c("inactive_fg") + graph_bg * (5 * b_column_size + extra_width) + Mv::l(5 * b_column_size + extra_width)
+ core_graphs.at(n)(cpu.core_percent.at(n), data_same or redraw);
out += Theme::g("cpu").at(clamp(cpu.core_percent.at(n).back(), 0ll, 100ll));
out += rjust(to_string(cpu.core_percent.at(n).back()), (b_column_size < 2 ? 3 : 4)) + Theme::c("main_fg") + '%';
if (show_temps and not hide_cores) {
const auto [temp, unit] = celsius_to(cpu.temp.at(n+1).back(), temp_scale);
const auto& temp_color = Theme::g("temp").at(clamp(cpu.temp.at(n+1).back() * 100 / cpu.temp_max, 0ll, 100ll));
if (b_column_size > 1)
out += ' ' + Theme::c("inactive_fg") + graph_bg * 5 + Mv::l(5)
+ temp_graphs.at(n+1)(cpu.temp.at(n+1), data_same or redraw);
out += temp_color + rjust(to_string(temp), 4) + Theme::c("main_fg") + unit;
}
out += Theme::c("div_line") + Symbols::v_line;
if ((++cy > ceil((double)Shared::coreCount / b_columns) or cy == b_height - 2) and n != Shared::coreCount - 1) {
if (++cc >= b_columns) break;
cy = 1; cx = (b_width / b_columns) * cc;
}
}
//? Load average
bool show_gpu = (graph_lo_field.rfind("gpu-", 0) == 0) or (graph_up_field.rfind("gpu-", 0) == 0);
if (cy < b_height - 1 and cc <= b_columns) {
string lavg_pre;
int sep = 1;
if (b_column_size == 2 and show_temps) { lavg_pre = "Load AVG:"; sep = 3; }
else if (b_column_size == 2 or (b_column_size == 1 and show_temps)) { lavg_pre = "LAV:"; }
else if (b_column_size == 1 or (b_column_size == 0 and show_temps)) { lavg_pre = "L"; }
string lavg;
for (const auto& val : cpu.load_avg) {
lavg += string(sep, ' ') + (lavg_pre.size() < 3 ? to_string((int)round(val)) : to_string(val).substr(0, 4));
}
string lavg_str = lavg_pre + lavg;
// if previous load average string is longer than current
// then right pad the current string with spaces until
// the current string is the same length as the previous
// otherwise set the lavg_str_len.
//
// When a shorter string gets written, the remaining characters
// from the previous string get left behind. This "erases" the
// leftover characters from the previous string.
if (lavg_str_len > lavg_str.length()) {
lavg_str += string(lavg_str_len - lavg_str.length(), ' ');
} else {
lavg_str_len = lavg_str.length();
}
out += Mv::to(b_y + b_height - 2 - show_gpu*(gpus.size() - Gpu::shown), b_x + cx + 1) + Theme::c("main_fg") + lavg_str;
}
//? Gpu brief info
if (show_gpu) {
auto shown_panels_count = 0u;
for (unsigned long i = 0; i < gpus.size(); ++i) {
if (not v_contains(Gpu::shown_panels, i)) {
out += Mv::to(b_y + b_height - 1 - gpus.size() + ++shown_panels_count - (Gpu::shown == 0), b_x + 1)
+ Theme::c("main_fg") + Fx::b + "GPU " + to_string(i) + ' ' + gpu_meters[i](gpus[i].gpu_percent.back())
+ Theme::g("cpu").at(gpus[i].gpu_percent.back()) + rjust(to_string(gpus[i].gpu_percent.back()), 4) + Theme::c("main_fg") + '%';
out += ' ' + Theme::c("inactive_fg") + graph_bg * 6 + Mv::l(6) + Theme::g("used").at(gpus[i].mem_used_percent.back())
+ gpu_mem_graphs[i](gpus[i].mem_used_percent, data_same or redraw) + Theme::c("main_fg")
+ rjust(floating_humanizer(gpus[i].mem_used, true), 5) + Theme::c("inactive_fg") + '/' + Theme::c("main_fg") + floating_humanizer(gpus[i].mem_total, true);
if (show_temps) {
const auto [temp, unit] = celsius_to(gpus[i].temp.back(), temp_scale);
out += ' ' + Theme::c("inactive_fg") + graph_bg * 6 + Mv::l(6) + Theme::g("temp").at(clamp(gpus[i].temp.back() * 100 / gpus[i].temp_max, 0ll, 100ll))
+ gpu_temp_graphs[i](gpus[i].temp, data_same or redraw)
+ rjust(to_string(temp), 4) + Theme::c("main_fg") + unit;
}
}
}
}
redraw = false;
return out + Fx::reset;
}
}
namespace Gpu {
int width_p = 100, height_p = 32;
int min_width = 41, min_height = 9;
int width = 41, height;
vector<int> x_vec = {}, y_vec = {};
int b_width, b_height;
vector<int> b_x_vec = {}, b_y_vec = {};
vector<bool> redraw = {}, mid_line = {};
int shown = 0;
vector<char> shown_panels = {};
int graph_up_height;
vector<Draw::Graph> graph_upper_vec = {}, graph_lower_vec = {};
vector<Draw::Graph> temp_graph_vec = {};
vector<Draw::Graph> mem_used_graph_vec = {}, mem_util_graph_vec = {};
vector<Draw::Meter> gpu_meter_vec = {};
vector<Draw::Meter> pwr_meter_vec = {};
vector<string> box = {};
string draw(const gpu_info& gpu, unsigned long index, bool force_redraw, bool data_same) {
if (Runner::stopping) return "";
auto& b_x = b_x_vec[index];
auto& b_y = b_y_vec[index];
auto& x = x_vec[index];
auto& y = y_vec[index];
auto& graph_upper = graph_upper_vec[index];
auto& graph_lower = graph_lower_vec[index];
auto& temp_graph = temp_graph_vec[index];
auto& mem_used_graph = mem_used_graph_vec[index];
auto& mem_util_graph = mem_util_graph_vec[index];
auto& gpu_meter = gpu_meter_vec[index];
auto& pwr_meter = pwr_meter_vec[index];
if (force_redraw) redraw[index] = true;
bool show_temps = (Config::getB("check_temp"));
auto tty_mode = Config::getB("tty_mode");
auto& temp_scale = Config::getS("temp_scale");
auto& graph_symbol = (tty_mode ? "tty" : Config::getS("graph_symbol_cpu")); // TODO graph_symbol_gpu
auto& graph_bg = Symbols::graph_symbols.at((graph_symbol == "default" ? Config::getS("graph_symbol") + "_up" : graph_symbol + "_up")).at(6);
auto single_graph = Config::getB("cpu_single_graph");
string out;
out.reserve(width * height);
//* Redraw elements not needed to be updated every cycle
if (redraw[index]) {
graph_up_height = single_graph ? height - 2 : ceil((double)(height - 2) / 2);
const int graph_low_height = height - 2 - graph_up_height - (mid_line[index] ? 1 : 0);
out += box[index];
graph_upper = Draw::Graph{x + width - b_width - 3, graph_up_height, "cpu", gpu.gpu_percent, graph_symbol, false, true}; // TODO cpu -> gpu
if (not single_graph) {
graph_lower = Draw::Graph{
x + width - b_width - 3,
graph_low_height, "cpu",
gpu.gpu_percent,
graph_symbol,
Config::getB("cpu_invert_lower"), true
};
}
gpu_meter = Draw::Meter{b_width - (show_temps ? 24 : 11), "cpu"};
temp_graph = Draw::Graph{6, 1, "temp", gpu.temp, graph_symbol, false, false, gpu.temp_max, -23};
pwr_meter = Draw::Meter{b_width - 24, "cached"};
mem_util_graph = Draw::Graph{b_width/2 - 1, 2, "free", gpu.mem_utilization_percent, graph_symbol, 0, 0, 100, 4}; // offset so the graph isn't empty at 0-5% utilization
mem_used_graph = Draw::Graph{b_width/2 - 2, 4, "used", gpu.mem_used_percent, graph_symbol};
}
//* General GPU info
//? Gpu graph, clock speed & meter
out += Fx::ub + Mv::to(y + 1, x + 1) + graph_upper(gpu.gpu_percent, (data_same or redraw[index]));
if (not single_graph)
out += Mv::to(y + graph_up_height + 1 + mid_line[index], x + 1) + graph_lower(gpu.gpu_percent, (data_same or redraw[index]));
if (Config::getB("show_cpu_freq")) { // TODO show_gpu_freq
string clock_speed_string = to_string(gpu.gpu_clock_speed);
out += Mv::to(b_y, b_x + b_width - 12) + Theme::c("div_line") + Symbols::h_line*(5-clock_speed_string.size())
+ Symbols::title_left + Fx::b + Theme::c("title") + clock_speed_string + " Mhz" + Fx::ub + Theme::c("div_line") + Symbols::title_right;
}
out += Mv::to(b_y + 1, b_x + 1) + Theme::c("main_fg") + Fx::b + "GPU " + gpu_meter(gpu.gpu_percent.back())
+ Theme::g("cpu").at(gpu.gpu_percent.back()) + rjust(to_string(gpu.gpu_percent.back()), 4) + Theme::c("main_fg") + '%';
//? Temperature graph
if (show_temps) {
const auto [temp, unit] = celsius_to(gpu.temp.back(), temp_scale);
out += ' ' + Theme::c("inactive_fg") + graph_bg * 6 + Mv::l(6) + Theme::g("temp").at(clamp(gpu.temp.back() * 100 / gpu.temp_max, 0ll, 100ll))
+ temp_graph(gpu.temp, data_same or redraw[index]);
out += rjust(to_string(temp), 4) + Theme::c("main_fg") + unit;
}
out += Theme::c("div_line") + Symbols::v_line;
//? Power usage meter, power state
out += Mv::to(b_y + 2, b_x + 1) + Theme::c("main_fg") + Fx::b + "PWR " + pwr_meter(gpu.pwr_percent.back())
+ Theme::g("cached").at(gpu.pwr_percent.back()) + rjust(to_string(gpu.pwr_usage/1000), 4) + Theme::c("main_fg") + 'W';
if (gpu.pwr_state != 32) // NVML_PSTATE_UNKNOWN; unsupported or non-nvidia card
out += std::string(" P-state: ") + (gpu.pwr_state > 9 ? "" : " ") + 'P' + Theme::g("cached").at(gpu.pwr_state) + to_string(gpu.pwr_state);
//? Memory section header & clock speed
string used_memory_string = floating_humanizer(gpu.mem_used);
out += Mv::to(b_y + 3, b_x) + Theme::c("div_line") + Symbols::div_left + Symbols::h_line + Symbols::title_left + Fx::b + Theme::c("title") + "vram"
+ Theme::c("div_line") + Fx::ub + Symbols::title_right + Symbols::h_line*(b_width/2-8) + Symbols::div_up + Symbols::h_line
+ Theme::c("title") + "Used:" + Theme::c("div_line") + Symbols::h_line*(b_width/2+b_width%2-9-used_memory_string.size()) + Theme::c("title") + used_memory_string + Theme::c("div_line") + Symbols::h_line + Symbols::div_right;
if (Config::getB("show_cpu_freq")) { // TODO show_gpu_freq
string clock_speed_string = to_string(gpu.mem_clock_speed);
out += Mv::to(b_y + 3, b_x + b_width/2 - 11) + Theme::c("div_line") + Symbols::h_line*(5-clock_speed_string.size())
+ Symbols::title_left + Fx::b + Theme::c("title") + clock_speed_string + " Mhz" + Fx::ub + Theme::c("div_line") + Symbols::title_right;
}
//? Memory usage borders
out += Mv::to(b_y + 5, b_x) + Theme::c("div_line") + Symbols::div_left+Symbols::h_line + Theme::c("title") + "Utilization:" + Theme::c("div_line") + Symbols::h_line*(b_width/2-14)
+ Symbols::div_right + Mv::u(1)+Mv::l(1) + Symbols::v_line + Mv::l(1)+Mv::d(2) + (Symbols::v_line + Mv::l(1)+Mv::d(1))*2;
//? Total memory usage
out += Mv::to(b_y + 4, b_x + 2) + Theme::c("main_fg") + Fx::b + "Total:" + rjust(floating_humanizer(gpu.mem_total), b_width/2-9) + Fx::ub;
//? Memory usage graphs & percentage
out += Mv::to(b_y+6, b_x+1) + Theme::c("inactive_fg") + mem_util_graph(gpu.mem_utilization_percent, (data_same or redraw[index]))
+ Mv::u(3) + Mv::r(1) + mem_used_graph(gpu.mem_used_percent, (data_same or redraw[index]));
out += Mv::to(b_y+6, b_x+1) + rjust(to_string(gpu.mem_utilization_percent.back()), 3) + '%' + Mv::u(2) + Mv::r(b_width/2-3) + rjust(to_string(gpu.mem_used_percent.back()), 3) + '%';
//? Processes section header
//out += Mv::to(b_y+8, b_x) + Theme::c("div_line") + Symbols::div_left + Symbols::h_line + Symbols::title_left + Theme::c("main_fg") + Fx::b + "gpu-proc" + Fx::ub + Theme::c("div_line")
// + Symbols::title_right + Symbols::h_line*(b_width/2-12) + Symbols::div_down + Symbols::h_line*(b_width/2-2) + Symbols::div_right;
//? PCIe link throughput
string tx_string = floating_humanizer(gpu.pcie_tx, 0, 1, 0, 1);
string rx_string = floating_humanizer(gpu.pcie_rx, 0, 1, 0, 1);
out += Mv::to(b_y + b_height - 1, b_x+2) + Theme::c("div_line")
+ Symbols::title_left_down + Theme::c("title") + Fx::b + "TX:" + Fx::ub + Theme::c("div_line") + Symbols::title_right_down + Symbols::h_line*(b_width/2-9-tx_string.size())
+ Symbols::title_left_down + Theme::c("title") + Fx::b + tx_string + Fx::ub + Theme::c("div_line") + Symbols::title_right_down + Symbols::div_down
+ Symbols::title_left_down + Theme::c("title") + Fx::b + "RX:" + Fx::ub + Theme::c("div_line") + Symbols::title_right_down + Symbols::h_line*(b_width/2+b_width%2-9-rx_string.size())
+ Symbols::title_left_down + Theme::c("title") + Fx::b + rx_string + Fx::ub + Theme::c("div_line") + Symbols::title_right_down + Symbols::round_right_down;
redraw[index] = false;
return out + Fx::reset;
}
}
namespace Mem {
int width_p = 45, height_p = 36;
int min_width = 36, min_height = 10;
int x = 1, y, width = 20, height;
int mem_width, disks_width, divider, item_height, mem_size, mem_meter, graph_height, disk_meter;
int disks_io_h = 0;
int disks_io_half = 0;
bool shown = true, redraw = true;
string box;
unordered_flat_map<string, Draw::Meter> mem_meters;
unordered_flat_map<string, Draw::Graph> mem_graphs;
unordered_flat_map<string, Draw::Meter> disk_meters_used;
unordered_flat_map<string, Draw::Meter> disk_meters_free;
unordered_flat_map<string, Draw::Graph> io_graphs;
string draw(const mem_info& mem, bool force_redraw, bool data_same) {
if (Runner::stopping) return "";
if (force_redraw) redraw = true;
auto show_swap = Config::getB("show_swap");
auto swap_disk = Config::getB("swap_disk");
auto show_disks = Config::getB("show_disks");
auto show_io_stat = Config::getB("show_io_stat");
auto io_mode = Config::getB("io_mode");
auto io_graph_combined = Config::getB("io_graph_combined");
auto use_graphs = Config::getB("mem_graphs");
auto tty_mode = Config::getB("tty_mode");
auto& graph_symbol = (tty_mode ? "tty" : Config::getS("graph_symbol_mem"));
auto& graph_bg = Symbols::graph_symbols.at((graph_symbol == "default" ? Config::getS("graph_symbol") + "_up" : graph_symbol + "_up")).at(6);
auto totalMem = Mem::get_totalMem();
string out;
out.reserve(height * width);
//* Redraw elements not needed to be updated every cycle
if (redraw) {
out += box;
mem_meters.clear();
mem_graphs.clear();
disk_meters_free.clear();
disk_meters_used.clear();
io_graphs.clear();
//? Mem graphs and meters
for (const auto& name : mem_names) {
if (use_graphs)
mem_graphs[name] = Draw::Graph{mem_meter, graph_height, name, mem.percent.at(name), graph_symbol};
else
mem_meters[name] = Draw::Meter{mem_meter, name};
}
if (show_swap and has_swap) {
for (const auto& name : swap_names) {
if (use_graphs)
mem_graphs[name] = Draw::Graph{mem_meter, graph_height, name.substr(5), mem.percent.at(name), graph_symbol};
else
mem_meters[name] = Draw::Meter{mem_meter, name.substr(5)};
}
}
//? Disk meters and io graphs
if (show_disks) {
if (show_io_stat or io_mode) {
unordered_flat_map<string, int> custom_speeds;
int half_height = 0;
if (io_mode) {
disks_io_h = max((int)floor((double)(height - 2 - (disk_ios * 2)) / max(1, disk_ios)), (io_graph_combined ? 1 : 2));
half_height = ceil((double)disks_io_h / 2);
if (not Config::getS("io_graph_speeds").empty()) {
auto split = ssplit(Config::getS("io_graph_speeds"));
for (const auto& entry : split) {
auto vals = ssplit(entry);
if (vals.size() == 2 and mem.disks.contains(vals.at(0)) and isint(vals.at(1)))
try {
custom_speeds[vals.at(0)] = std::stoi(vals.at(1));
}
catch (const std::out_of_range&) { continue; }
}
}
}
for (const auto& [name, disk] : mem.disks) {
if (disk.io_read.empty()) continue;
io_graphs[name + "_activity"] = Draw::Graph{disks_width - 6, 1, "available", disk.io_activity, graph_symbol};
if (io_mode) {
//? Create one combined graph for IO read/write if enabled
long long speed = (custom_speeds.contains(name) ? custom_speeds.at(name) : 100) << 20;
if (io_graph_combined) {
deque<long long> combined(disk.io_read.size(), 0);
rng::transform(disk.io_read, disk.io_write, combined.begin(), std::plus<long long>());
io_graphs[name] = Draw::Graph{
disks_width - (io_mode ? 0 : 6),
disks_io_h, "available", combined,
graph_symbol, false, true, speed};
}
else {
io_graphs[name + "_read"] = Draw::Graph{
disks_width, half_height, "free",
disk.io_read, graph_symbol, false,
true, speed};
io_graphs[name + "_write"] = Draw::Graph{
disks_width, disks_io_h - half_height,
"used", disk.io_write, graph_symbol,
true, true, speed};
}
}
}
}
for (int i = 0; const auto& [name, ignored] : mem.disks) {
if (i * 2 > height - 2) break;
disk_meters_used[name] = Draw::Meter{disk_meter, "used"};
if (cmp_less_equal(mem.disks.size() * 3, height - 1))
disk_meters_free[name] = Draw::Meter{disk_meter, "free"};
}
out += Mv::to(y, x + width - 6) + Fx::ub + Theme::c("mem_box") + Symbols::title_left + (io_mode ? Fx::b : "") + Theme::c("hi_fg")
+ 'i' + Theme::c("title") + 'o' + Fx::ub + Theme::c("mem_box") + Symbols::title_right;
Input::mouse_mappings["i"] = {y, x + width - 5, 1, 2};
}
}
//? Mem and swap
int cx = 1, cy = 1;
string divider = (graph_height > 0 ? Mv::l(2) + Theme::c("mem_box") + Symbols::div_left + Theme::c("div_line") + Symbols::h_line * (mem_width - 1)
+ (show_disks ? "" : Theme::c("mem_box")) + Symbols::div_right + Mv::l(mem_width - 1) + Theme::c("main_fg") : "");
string up = (graph_height >= 2 ? Mv::l(mem_width - 2) + Mv::u(graph_height - 1) : "");
bool big_mem = mem_width > 21;
out += Mv::to(y + 1, x + 2) + Theme::c("title") + Fx::b + "Total:" + rjust(floating_humanizer(totalMem), mem_width - 9) + Fx::ub + Theme::c("main_fg");
vector<string> comb_names (mem_names.begin(), mem_names.end());
if (show_swap and has_swap and not swap_disk) comb_names.insert(comb_names.end(), swap_names.begin(), swap_names.end());
for (auto name : comb_names) {
if (cy > height - 4) break;
string title;
if (name == "swap_used") {
if (cy > height - 5) break;
if (height - cy > 6) {
if (graph_height > 0) out += Mv::to(y+1+cy, x+1+cx) + divider;
cy += 1;
}
out += Mv::to(y+1+cy, x+1+cx) + Theme::c("title") + Fx::b + "Swap:" + rjust(floating_humanizer(mem.stats.at("swap_total")), mem_width - 8)
+ Theme::c("main_fg") + Fx::ub;
cy += 1;
title = "Used";
}
else if (name == "swap_free")
title = "Free";
if (title.empty()) title = capitalize(name);
const string humanized = floating_humanizer(mem.stats.at(name));
const int offset = max(0, divider.empty() ? 9 - (int)humanized.size() : 0);
const string graphics = (use_graphs ? mem_graphs.at(name)(mem.percent.at(name), redraw or data_same) : mem_meters.at(name)(mem.percent.at(name).back()));
if (mem_size > 2) {
out += Mv::to(y+1+cy, x+1+cx) + divider + title.substr(0, big_mem ? 10 : 5) + ":"
+ Mv::to(y+1+cy, x+cx + mem_width - 2 - humanized.size()) + (divider.empty() ? Mv::l(offset) + string(" ") * offset + humanized : trans(humanized))
+ Mv::to(y+2+cy, x+cx + (graph_height >= 2 ? 0 : 1)) + graphics + up + rjust(to_string(mem.percent.at(name).back()) + "%", 4);
cy += (graph_height == 0 ? 2 : graph_height + 1);
}
else {
out += Mv::to(y+1+cy, x+1+cx) + ljust(title, (mem_size > 1 ? 5 : 1)) + (graph_height >= 2 ? "" : " ")
+ graphics + Theme::c("title") + rjust(humanized, (mem_size > 1 ? 9 : 7));
cy += (graph_height == 0 ? 1 : graph_height);
}
}
if (graph_height > 0 and cy < height - 2)
out += Mv::to(y+1+cy, x+1+cx) + divider;
//? Disks
if (show_disks) {
const auto& disks = mem.disks;
cx = mem_width; cy = 0;
bool big_disk = disks_width >= 25;
divider = Mv::l(1) + Theme::c("div_line") + Symbols::div_left + Symbols::h_line * disks_width + Theme::c("mem_box") + Fx::ub + Symbols::div_right + Mv::l(disks_width);
const string hu_div = Theme::c("div_line") + Symbols::h_line + Theme::c("main_fg");
if (io_mode) {
for (const auto& mount : mem.disks_order) {
if (not disks.contains(mount)) continue;
if (cy > height - 3) break;
const auto& disk = disks.at(mount);
if (disk.io_read.empty()) continue;
const string total = floating_humanizer(disk.total, not big_disk);
out += Mv::to(y+1+cy, x+1+cx) + divider + Theme::c("title") + Fx::b + uresize(disk.name, disks_width - 8) + Mv::to(y+1+cy, x+cx + disks_width - total.size())
+ trans(total) + Fx::ub;
if (big_disk) {
const string used_percent = to_string(disk.used_percent);
out += Mv::to(y+1+cy, x+1+cx + round((double)disks_width / 2) - round((double)used_percent.size() / 2) - 1) + hu_div + used_percent + '%' + hu_div;
}
out += Mv::to(y+2+cy++, x+1+cx) + (big_disk ? " IO% " : " IO " + Mv::l(2)) + Theme::c("inactive_fg") + graph_bg * (disks_width - 6)
+ Mv::l(disks_width - 6) + io_graphs.at(mount + "_activity")(disk.io_activity, redraw or data_same) + Theme::c("main_fg");
if (++cy > height - 3) break;
if (io_graph_combined) {
auto comb_val = disk.io_read.back() + disk.io_write.back();
const string humanized = (disk.io_write.back() > 0 ? ""s : ""s) + (disk.io_read.back() > 0 ? ""s : ""s)
+ (comb_val > 0 ? Mv::r(1) + floating_humanizer(comb_val, true) : "RW");
if (disks_io_h == 1) out += Mv::to(y+1+cy, x+1+cx) + string(5, ' ');
out += Mv::to(y+1+cy, x+1+cx) + io_graphs.at(mount)({comb_val}, redraw or data_same)
+ Mv::to(y+1+cy, x+1+cx) + Theme::c("main_fg") + humanized;
cy += disks_io_h;
}
else {
const string human_read = (disk.io_read.back() > 0 ? "" + floating_humanizer(disk.io_read.back(), true) : "R");
const string human_write = (disk.io_write.back() > 0 ? "" + floating_humanizer(disk.io_write.back(), true) : "W");
if (disks_io_h <= 3) out += Mv::to(y+1+cy, x+1+cx) + string(5, ' ') + Mv::to(y+cy + disks_io_h, x+1+cx) + string(5, ' ');
out += Mv::to(y+1+cy, x+1+cx) + io_graphs.at(mount + "_read")(disk.io_read, redraw or data_same) + Mv::l(disks_width)
+ Mv::d(1) + io_graphs.at(mount + "_write")(disk.io_write, redraw or data_same)
+ Mv::to(y+1+cy, x+1+cx) + human_read + Mv::to(y+cy + disks_io_h, x+1+cx) + human_write;
cy += disks_io_h;
}
}
}
else {
for (const auto& mount : mem.disks_order) {
if (not disks.contains(mount)) continue;
if (cy > height - 3) break;
const auto& disk = disks.at(mount);
auto comb_val = (not disk.io_read.empty() ? disk.io_read.back() + disk.io_write.back() : 0ll);
const string human_io = (comb_val > 0 ? (disk.io_write.back() > 0 and big_disk ? ""s : ""s) + (disk.io_read.back() > 0 and big_disk ? ""s : ""s)
+ floating_humanizer(comb_val, true) : "");
const string human_total = floating_humanizer(disk.total, not big_disk);
const string human_used = floating_humanizer(disk.used, not big_disk);
const string human_free = floating_humanizer(disk.free, not big_disk);
out += Mv::to(y+1+cy, x+1+cx) + divider + Theme::c("title") + Fx::b + uresize(disk.name, disks_width - 8) + Mv::to(y+1+cy, x+cx + disks_width - human_total.size())
+ trans(human_total) + Fx::ub + Theme::c("main_fg");
if (big_disk and not human_io.empty())
out += Mv::to(y+1+cy, x+1+cx + round((double)disks_width / 2) - round((double)human_io.size() / 2) - 1) + hu_div + human_io + hu_div;
if (++cy > height - 3) break;
if (show_io_stat and io_graphs.contains(mount + "_activity")) {
out += Mv::to(y+1+cy, x+1+cx) + (big_disk ? " IO% " : " IO " + Mv::l(2)) + Theme::c("inactive_fg") + graph_bg * (disks_width - 6) + Theme::g("available").at(clamp(disk.io_activity.back(), 50ll, 100ll))
+ Mv::l(disks_width - 6) + io_graphs.at(mount + "_activity")(disk.io_activity, redraw or data_same) + Theme::c("main_fg");
if (not big_disk) out += Mv::to(y+1+cy, x+cx+1) + Theme::c("main_fg") + human_io;
if (++cy > height - 3) break;
}
out += Mv::to(y+1+cy, x+1+cx) + (big_disk ? " Used:" + rjust(to_string(disk.used_percent) + '%', 4) : "U") + ' '
+ disk_meters_used.at(mount)(disk.used_percent) + rjust(human_used, (big_disk ? 9 : 5));
if (++cy > height - 3) break;
if (cmp_less_equal(disks.size() * 3 + (show_io_stat ? disk_ios : 0), height - 1)) {
out += Mv::to(y+1+cy, x+1+cx) + (big_disk ? " Free:" + rjust(to_string(disk.free_percent) + '%', 4) : "F") + ' '
+ disk_meters_free.at(mount)(disk.free_percent) + rjust(human_free, (big_disk ? 9 : 5));
cy++;
if (cmp_less_equal(disks.size() * 4 + (show_io_stat ? disk_ios : 0), height - 1)) cy++;
}
}
}
if (cy < height - 2) out += Mv::to(y+1+cy, x+1+cx) + divider;
}
redraw = false;
return out + Fx::reset;
}
}
namespace Net {
int width_p = 45, height_p = 32;
int min_width = 36, min_height = 6;
int x = 1, y, width = 20, height;
int b_x, b_y, b_width, b_height, d_graph_height, u_graph_height;
bool shown = true, redraw = true;
string old_ip;
unordered_flat_map<string, Draw::Graph> graphs;
string box;
string draw(const net_info& net, bool force_redraw, bool data_same) {
if (Runner::stopping) return "";
if (force_redraw) redraw = true;
auto net_sync = Config::getB("net_sync");
auto net_auto = Config::getB("net_auto");
auto tty_mode = Config::getB("tty_mode");
auto& graph_symbol = (tty_mode ? "tty" : Config::getS("graph_symbol_net"));
string ip_addr = (net.ipv4.empty() ? net.ipv6 : net.ipv4);
if (old_ip != ip_addr) {
old_ip = ip_addr;
redraw = true;
}
string out;
out.reserve(width * height);
const string title_left = Theme::c("net_box") + Fx::ub + Symbols::title_left;
const string title_right = Theme::c("net_box") + Fx::ub + Symbols::title_right;
const int i_size = min((int)selected_iface.size(), 10);
const long long down_max = (net_auto ? graph_max.at("download") : ((long long)(Config::getI("net_download")) << 20) / 8);
const long long up_max = (net_auto ? graph_max.at("upload") : ((long long)(Config::getI("net_upload")) << 20) / 8);
//* Redraw elements not needed to be updated every cycle
if (redraw) {
out = box;
//? Graphs
graphs.clear();
if (net.bandwidth.at("download").empty() or net.bandwidth.at("upload").empty())
return out + Fx::reset;
graphs["download"] = Draw::Graph{
width - b_width - 2, u_graph_height, "download",
net.bandwidth.at("download"), graph_symbol,
false, true, down_max};
graphs["upload"] = Draw::Graph{
width - b_width - 2, d_graph_height, "upload",
net.bandwidth.at("upload"), graph_symbol, true, true, up_max};
//? Interface selector and buttons
out += Mv::to(y, x+width - i_size - 9) + title_left + Fx::b + Theme::c("hi_fg") + "<b " + Theme::c("title")
+ uresize(selected_iface, 10) + Theme::c("hi_fg") + " n>" + title_right
+ Mv::to(y, x+width - i_size - 15) + title_left + Theme::c("hi_fg") + (net.stat.at("download").offset + net.stat.at("upload").offset > 0 ? Fx::b : "") + 'z'
+ Theme::c("title") + "ero" + title_right;
Input::mouse_mappings["b"] = {y, x+width - i_size - 8, 1, 3};
Input::mouse_mappings["n"] = {y, x+width - 6, 1, 3};
Input::mouse_mappings["z"] = {y, x+width - i_size - 14, 1, 4};
if (width - i_size - 20 > 6) {
out += Mv::to(y, x+width - i_size - 21) + title_left + Theme::c("hi_fg") + (net_auto ? Fx::b : "") + 'a' + Theme::c("title") + "uto" + title_right;
Input::mouse_mappings["a"] = {y, x+width - i_size - 20, 1, 4};
}
if (width - i_size - 20 > 13) {
out += Mv::to(y, x+width - i_size - 27) + title_left + Theme::c("title") + (net_sync ? Fx::b : "") + 's' + Theme::c("hi_fg")
+ 'y' + Theme::c("title") + "nc" + title_right;
Input::mouse_mappings["y"] = {y, x+width - i_size - 26, 1, 4};
}
}
//? IP or device address
if (not ip_addr.empty() and cmp_greater(width - i_size - 36, ip_addr.size())) {
out += Mv::to(y, x + 8) + title_left + Theme::c("title") + Fx::b + ip_addr + title_right;
}
//? Graphs and stats
int cy = 0;
for (const string dir : {"download", "upload"}) {
out += Mv::to(y+1 + (dir == "upload" ? u_graph_height : 0), x + 1) + graphs.at(dir)(net.bandwidth.at(dir), redraw or data_same or not net.connected)
+ Mv::to(y+1 + (dir == "upload" ? height - 3: 0), x + 1) + Fx::ub + Theme::c("graph_text")
+ floating_humanizer((dir == "upload" ? up_max : down_max), true);
const string speed = floating_humanizer(net.stat.at(dir).speed, false, 0, false, true);
const string speed_bits = (b_width >= 20 ? floating_humanizer(net.stat.at(dir).speed, false, 0, true, true) : "");
const string top = floating_humanizer(net.stat.at(dir).top, false, 0, true, true);
const string total = floating_humanizer(net.stat.at(dir).total);
const string symbol = (dir == "upload" ? "" : "");
out += Mv::to(b_y+1+cy, b_x+1) + Fx::ub + Theme::c("main_fg") + symbol + ' ' + ljust(speed, 10) + (b_width >= 20 ? rjust('(' + speed_bits + ')', 13) : "");
cy += (b_height == 5 ? 2 : 1);
if (b_height >= 8) {
out += Mv::to(b_y+1+cy, b_x+1) + symbol + ' ' + "Top: " + rjust('(' + top, (b_width >= 20 ? 17 : 9)) + ')';
cy++;
}
if (b_height >= 6) {
out += Mv::to(b_y+1+cy, b_x+1) + symbol + ' ' + "Total: " + rjust(total, (b_width >= 20 ? 16 : 8));
cy += (b_height > 6 and b_height % 2 ? 2 : 1);
}
}
redraw = false;
return out + Fx::reset;
}
}
namespace Proc {
int width_p = 55, height_p = 68;
int min_width = 44, min_height = 16;
int x, y, width = 20, height;
int start, selected, select_max;
bool shown = true, redraw = true;
int selected_pid = 0, selected_depth = 0;
string selected_name;
unordered_flat_map<size_t, Draw::Graph> p_graphs;
unordered_flat_map<size_t, bool> p_wide_cmd;
unordered_flat_map<size_t, int> p_counters;
int counter = 0;
Draw::TextEdit filter;
Draw::Graph detailed_cpu_graph;
Draw::Graph detailed_mem_graph;
int user_size, thread_size, prog_size, cmd_size, tree_size;
int dgraph_x, dgraph_width, d_width, d_x, d_y;
string box;
int selection(const string& cmd_key) {
auto start = Config::getI("proc_start");
auto selected = Config::getI("proc_selected");
auto last_selected = Config::getI("proc_last_selected");
const int select_max = (Config::getB("show_detailed") ? Proc::select_max - 8 : Proc::select_max);
auto vim_keys = Config::getB("vim_keys");
int numpids = Proc::numpids;
if ((cmd_key == "up" or (vim_keys and cmd_key == "k")) and selected > 0) {
if (start > 0 and selected == 1) start--;
else selected--;
if (Config::getI("proc_last_selected") > 0) Config::set("proc_last_selected", 0);
}
else if (cmd_key == "mouse_scroll_up" and start > 0) {
start = max(0, start - 3);
}
else if (cmd_key == "mouse_scroll_down" and start < numpids - select_max) {
start = min(numpids - select_max, start + 3);
}
else if (cmd_key == "down" or (vim_keys and cmd_key == "j")) {
if (start < numpids - select_max and selected == select_max) start++;
else if (selected == 0 and last_selected > 0) {
selected = last_selected;
Config::set("proc_last_selected", 0);
}
else selected++;
}
else if (cmd_key == "page_up") {
if (selected > 0 and start == 0) selected = 0;
else start = max(0, start - select_max);
}
else if (cmd_key == "page_down") {
if (selected > 0 and start >= numpids - select_max) selected = select_max;
else start = clamp(start + select_max, 0, max(0, numpids - select_max));
}
else if (cmd_key == "home" or (vim_keys and cmd_key == "g")) {
start = 0;
if (selected > 0) selected = 1;
}
else if (cmd_key == "end" or (vim_keys and cmd_key == "G")) {
start = max(0, numpids - select_max);
if (selected > 0) selected = select_max;
}
else if (cmd_key.starts_with("mousey")) {
int mouse_y = std::stoi(cmd_key.substr(6));
start = clamp((int)round((double)mouse_y * (numpids - select_max - 2) / (select_max - 2)), 0, max(0, numpids - select_max));
}
bool changed = false;
if (start != Config::getI("proc_start")) {
Config::set("proc_start", start);
changed = true;
}
if (selected != Config::getI("proc_selected")) {
Config::set("proc_selected", selected);
changed = true;
}
return (not changed ? -1 : selected);
}
string draw(const vector<proc_info>& plist, bool force_redraw, bool data_same) {
if (Runner::stopping) return "";
auto proc_tree = Config::getB("proc_tree");
bool show_detailed = (Config::getB("show_detailed") and cmp_equal(Proc::detailed.last_pid, Config::getI("detailed_pid")));
bool proc_gradient = (Config::getB("proc_gradient") and not Config::getB("lowcolor") and Theme::gradients.contains("proc"));
auto proc_colors = Config::getB("proc_colors");
auto tty_mode = Config::getB("tty_mode");
auto& graph_symbol = (tty_mode ? "tty" : Config::getS("graph_symbol_proc"));
auto& graph_bg = Symbols::graph_symbols.at((graph_symbol == "default" ? Config::getS("graph_symbol") + "_up" : graph_symbol + "_up")).at(6);
auto mem_bytes = Config::getB("proc_mem_bytes");
auto vim_keys = Config::getB("vim_keys");
auto show_graphs = Config::getB("proc_cpu_graphs");
start = Config::getI("proc_start");
selected = Config::getI("proc_selected");
const int y = show_detailed ? Proc::y + 8 : Proc::y;
const int height = show_detailed ? Proc::height - 8 : Proc::height;
const int select_max = show_detailed ? Proc::select_max - 8 : Proc::select_max;
auto totalMem = Mem::get_totalMem();
int numpids = Proc::numpids;
if (force_redraw) redraw = true;
string out;
out.reserve(width * height);
//* Redraw elements not needed to be updated every cycle
if (redraw) {
out = box;
const string title_left = Theme::c("proc_box") + Symbols::title_left;
const string title_right = Theme::c("proc_box") + Symbols::title_right;
const string title_left_down = Theme::c("proc_box") + Symbols::title_left_down;
const string title_right_down = Theme::c("proc_box") + Symbols::title_right_down;
for (const auto& key : {"T", "K", "S", "enter"})
if (Input::mouse_mappings.contains(key)) Input::mouse_mappings.erase(key);
//? Adapt sizes of text fields
user_size = (width < 75 ? 5 : 10);
thread_size = (width < 75 ? - 1 : 4);
prog_size = (width > 70 ? 16 : ( width > 55 ? 8 : width - user_size - thread_size - 33));
cmd_size = (width > 55 ? width - prog_size - user_size - thread_size - 33 : -1);
tree_size = width - user_size - thread_size - 23;
if (not show_graphs) {
cmd_size += 5;
tree_size += 5;
}
//? Detailed box
if (show_detailed) {
bool alive = detailed.status != "Dead";
dgraph_x = x;
dgraph_width = max(width / 3, width - 121);
d_width = width - dgraph_width - 1;
d_x = x + dgraph_width + 1;
d_y = Proc::y;
//? Create cpu and mem graphs if process is alive
if (alive) {
detailed_cpu_graph = Draw::Graph{dgraph_width - 1, 7, "cpu", detailed.cpu_percent, graph_symbol, false, true};
detailed_mem_graph = Draw::Graph{d_width / 3, 1, "", detailed.mem_bytes, graph_symbol, false, false, detailed.first_mem};
}
//? Draw structure of details box
const string pid_str = to_string(detailed.entry.pid);
out += Mv::to(y, x) + Theme::c("proc_box") + Symbols::div_left + Symbols::h_line + title_left + Theme::c("hi_fg") + Fx::b
+ (tty_mode ? "4" : Symbols::superscript.at(4)) + Theme::c("title") + "proc"
+ Fx::ub + title_right + Symbols::h_line * (width - 10) + Symbols::div_right
+ Mv::to(d_y, dgraph_x + 2) + title_left + Fx::b + Theme::c("title") + pid_str + Fx::ub + title_right
+ title_left + Fx::b + Theme::c("title") + uresize(detailed.entry.name, dgraph_width - pid_str.size() - 7, true) + Fx::ub + title_right;
out += Mv::to(d_y, d_x - 1) + Theme::c("proc_box") + Symbols::div_up + Mv::to(y, d_x - 1) + Symbols::div_down + Theme::c("div_line");
for (const int& i : iota(1, 8)) out += Mv::to(d_y + i, d_x - 1) + Symbols::v_line;
const string& t_color = (not alive or selected > 0 ? Theme::c("inactive_fg") : Theme::c("title"));
const string& hi_color = (not alive or selected > 0 ? t_color : Theme::c("hi_fg"));
const string hide = (selected > 0 ? t_color + "hide " : Theme::c("title") + "hide " + Theme::c("hi_fg"));
int mouse_x = d_x + 2;
out += Mv::to(d_y, d_x + 1);
if (width > 55) {
out += Fx::ub + title_left + hi_color + Fx::b + 't' + t_color + "erminate" + Fx::ub + title_right;
if (alive and selected == 0) Input::mouse_mappings["t"] = {d_y, mouse_x, 1, 9};
mouse_x += 11;
}
out += title_left + hi_color + Fx::b + (vim_keys ? 'K' : 'k') + t_color + "ill" + Fx::ub + title_right
+ title_left + hi_color + Fx::b + 's' + t_color + "ignals" + Fx::ub + title_right
+ Mv::to(d_y, d_x + d_width - 10) + title_left + t_color + Fx::b + hide + Symbols::enter + Fx::ub + title_right;
if (alive and selected == 0) {
Input::mouse_mappings["k"] = {d_y, mouse_x, 1, 4};
mouse_x += 6;
Input::mouse_mappings["s"] = {d_y, mouse_x, 1, 7};
}
if (selected == 0) Input::mouse_mappings["enter"] = {d_y, d_x + d_width - 9, 1, 6};
//? Labels
const int item_fit = floor((double)(d_width - 2) / 10);
const int item_width = floor((double)(d_width - 2) / min(item_fit, 8));
out += Mv::to(d_y + 1, d_x + 1) + Fx::b + Theme::c("title")
+ cjust("Status:", item_width)
+ cjust("Elapsed:", item_width);
if (item_fit >= 3) out += cjust("IO/R:", item_width);
if (item_fit >= 4) out += cjust("IO/W:", item_width);
if (item_fit >= 5) out += cjust("Parent:", item_width);
if (item_fit >= 6) out += cjust("User:", item_width);
if (item_fit >= 7) out += cjust("Threads:", item_width);
if (item_fit >= 8) out += cjust("Nice:", item_width);
//? Command line
for (int i = 0; const auto& l : {'C', 'M', 'D'})
out += Mv::to(d_y + 5 + i++, d_x + 1) + l;
out += Theme::c("main_fg") + Fx::ub;
const int cmd_size = ulen(detailed.entry.cmd, true);
for (int num_lines = min(3, (int)ceil((double)cmd_size / (d_width - 5))), i = 0; i < num_lines; i++) {
out += Mv::to(d_y + 5 + (num_lines == 1 ? 1 : i), d_x + 3)
+ cjust(luresize(detailed.entry.cmd, cmd_size - (d_width - 5) * i, true), d_width - 5, true, true);
}
}
//? Filter
auto filtering = Config::getB("proc_filtering"); // ? filter(20) : Config::getS("proc_filter"))
const auto filter_text = (filtering) ? filter(max(6, width - 58)) : uresize(Config::getS("proc_filter"), max(6, width - 58));
out += Mv::to(y, x+9) + title_left + (not filter_text.empty() ? Fx::b : "") + Theme::c("hi_fg") + 'f'
+ Theme::c("title") + (not filter_text.empty() ? ' ' + filter_text : "ilter")
+ (not filtering and not filter_text.empty() ? Theme::c("hi_fg") + " del" : "")
+ (filtering ? Theme::c("hi_fg") + ' ' + Symbols::enter : "") + Fx::ub + title_right;
if (not filtering) {
int f_len = (filter_text.empty() ? 6 : ulen(filter_text) + 2);
Input::mouse_mappings["f"] = {y, x + 10, 1, f_len};
if (filter_text.empty() and Input::mouse_mappings.contains("delete"))
Input::mouse_mappings.erase("delete");
else if (not filter_text.empty())
Input::mouse_mappings["delete"] = {y, x + 11 + f_len, 1, 3};
}
//? per-core, reverse, tree and sorting
const auto& sorting = Config::getS("proc_sorting");
const int sort_len = sorting.size();
const int sort_pos = x + width - sort_len - 8;
if (width > 55 + sort_len) {
out += Mv::to(y, sort_pos - 25) + title_left + (Config::getB("proc_per_core") ? Fx::b : "") + Theme::c("title")
+ "per-" + Theme::c("hi_fg") + 'c' + Theme::c("title") + "ore" + Fx::ub + title_right;
Input::mouse_mappings["c"] = {y, sort_pos - 24, 1, 8};
}
if (width > 45 + sort_len) {
out += Mv::to(y, sort_pos - 15) + title_left + (Config::getB("proc_reversed") ? Fx::b : "") + Theme::c("hi_fg")
+ 'r' + Theme::c("title") + "everse" + Fx::ub + title_right;
Input::mouse_mappings["r"] = {y, sort_pos - 14, 1, 7};
}
if (width > 35 + sort_len) {
out += Mv::to(y, sort_pos - 6) + title_left + (Config::getB("proc_tree") ? Fx::b : "") + Theme::c("title") + "tre"
+ Theme::c("hi_fg") + 'e' + Fx::ub + title_right;
Input::mouse_mappings["e"] = {y, sort_pos - 5, 1, 4};
}
out += Mv::to(y, sort_pos) + title_left + Fx::b + Theme::c("hi_fg") + "< " + Theme::c("title") + sorting + Theme::c("hi_fg")
+ " >" + Fx::ub + title_right;
Input::mouse_mappings["left"] = {y, sort_pos + 1, 1, 2};
Input::mouse_mappings["right"] = {y, sort_pos + sort_len + 3, 1, 2};
//? select, info and signal buttons
const string down_button = (selected == select_max and start == numpids - select_max ? Theme::c("inactive_fg") : Theme::c("hi_fg")) + Symbols::down;
const string t_color = (selected == 0 ? Theme::c("inactive_fg") : Theme::c("title"));
const string hi_color = (selected == 0 ? Theme::c("inactive_fg") : Theme::c("hi_fg"));
int mouse_x = x + 14;
out += Mv::to(y + height - 1, x + 1) + title_left_down + Fx::b + hi_color + Symbols::up + Theme::c("title") + " select " + down_button + Fx::ub + title_right_down
+ title_left_down + Fx::b + t_color + "info " + hi_color + Symbols::enter + Fx::ub + title_right_down;
if (selected > 0) Input::mouse_mappings["enter"] = {y + height - 1, mouse_x, 1, 6};
mouse_x += 8;
if (width > 60) {
out += title_left_down + Fx::b + hi_color + 't' + t_color + "erminate" + Fx::ub + title_right_down;
if (selected > 0) Input::mouse_mappings["t"] = {y + height - 1, mouse_x, 1, 9};
mouse_x += 11;
}
if (width > 55) {
out += title_left_down + Fx::b + hi_color + (vim_keys ? 'K' : 'k') + t_color + "ill" + Fx::ub + title_right_down;
if (selected > 0) Input::mouse_mappings["k"] = {y + height - 1, mouse_x, 1, 4};
mouse_x += 6;
}
out += title_left_down + Fx::b + hi_color + 's' + t_color + "ignals" + Fx::ub + title_right_down;
if (selected > 0) Input::mouse_mappings["s"] = {y + height - 1, mouse_x, 1, 7};
//? Labels for fields in list
if (not proc_tree)
out += Mv::to(y+1, x+1) + Theme::c("title") + Fx::b
+ rjust("Pid:", 8) + ' '
+ ljust("Program:", prog_size) + ' '
+ (cmd_size > 0 ? ljust("Command:", cmd_size) : "") + ' ';
else
out += Mv::to(y+1, x+1) + Theme::c("title") + Fx::b
+ ljust("Tree:", tree_size) + ' ';
out += (thread_size > 0 ? Mv::l(4) + "Threads: " : "")
+ ljust("User:", user_size) + ' '
+ rjust((mem_bytes ? "MemB" : "Mem%"), 5) + ' '
+ rjust("Cpu%", (show_graphs ? 10 : 5)) + Fx::ub;
}
//* End of redraw block
//? Draw details box if shown
if (show_detailed) {
bool alive = detailed.status != "Dead";
const int item_fit = floor((double)(d_width - 2) / 10);
const int item_width = floor((double)(d_width - 2) / min(item_fit, 8));
//? Graph part of box
string cpu_str = (alive ? to_string(detailed.entry.cpu_p) : "");
if (alive) {
cpu_str.resize((detailed.entry.cpu_p < 10 or detailed.entry.cpu_p >= 100 ? 3 : 4));
cpu_str += '%';
}
out += Mv::to(d_y + 1, dgraph_x + 1) + Fx::ub + detailed_cpu_graph(detailed.cpu_percent, (redraw or data_same or not alive))
+ Mv::to(d_y + 1, dgraph_x + 1) + Theme::c("title") + Fx::b + cpu_str;
for (int i = 0; const auto& l : {'C', 'P', 'U'})
out += Mv::to(d_y + 3 + i++, dgraph_x + 1) + l;
//? Info part of box
const string stat_color = (not alive ? Theme::c("inactive_fg") : (detailed.status == "Running" ? Theme::c("proc_misc") : Theme::c("main_fg")));
out += Mv::to(d_y + 2, d_x + 1) + stat_color + Fx::ub
+ cjust(detailed.status, item_width) + Theme::c("main_fg")
+ cjust(detailed.elapsed, item_width);
if (item_fit >= 3) out += cjust(detailed.io_read, item_width);
if (item_fit >= 4) out += cjust(detailed.io_write, item_width);
if (item_fit >= 5) out += cjust(detailed.parent, item_width, true);
if (item_fit >= 6) out += cjust(detailed.entry.user, item_width, true);
if (item_fit >= 7) out += cjust(to_string(detailed.entry.threads), item_width);
if (item_fit >= 8) out += cjust(to_string(detailed.entry.p_nice), item_width);
const double mem_p = (double)detailed.mem_bytes.back() * 100 / totalMem;
string mem_str = to_string(mem_p);
mem_str.resize((mem_p < 10 or mem_p >= 100 ? 3 : 4));
out += Mv::to(d_y + 4, d_x + 1) + Theme::c("title") + Fx::b + rjust((item_fit > 4 ? "Memory: " : "M:") + mem_str + "% ", (d_width / 3) - 2)
+ Theme::c("inactive_fg") + Fx::ub + graph_bg * (d_width / 3) + Mv::l(d_width / 3)
+ Theme::c("proc_misc") + detailed_mem_graph(detailed.mem_bytes, (redraw or data_same or not alive)) + ' '
+ Theme::c("title") + Fx::b + detailed.memory;
}
//? Check bounds of current selection and view
if (start > 0 and numpids <= select_max)
start = 0;
if (start > numpids - select_max)
start = max(0, numpids - select_max);
if (selected > select_max)
selected = select_max;
if (selected > numpids)
selected = numpids;
//* Iteration over processes
int lc = 0;
for (int n=0; auto& p : plist) {
if (p.filtered or (proc_tree and p.tree_index == plist.size()) or n++ < start) continue;
bool is_selected = (lc + 1 == selected);
if (is_selected) {
selected_pid = (int)p.pid;
selected_name = p.name;
selected_depth = p.depth;
}
//? Update graphs for processes with above 0.0% cpu usage, delete if below 0.1% 10x times
bool has_graph = show_graphs ? p_counters.contains(p.pid) : false;
if (show_graphs and ((p.cpu_p > 0 and not has_graph) or (not data_same and has_graph))) {
if (not has_graph) {
p_graphs[p.pid] = Draw::Graph{5, 1, "", {}, graph_symbol};
p_counters[p.pid] = 0;
}
else if (p.cpu_p < 0.1 and ++p_counters[p.pid] >= 10) {
p_graphs.erase(p.pid);
p_counters.erase(p.pid);
}
else
p_counters.at(p.pid) = 0;
}
out += Fx::reset;
//? Set correct gradient colors if enabled
string c_color, m_color, t_color, g_color, end;
if (is_selected) {
c_color = m_color = t_color = g_color = Fx::b;
end = Fx::ub;
out += Theme::c("selected_bg") + Theme::c("selected_fg") + Fx::b;
}
else {
int calc = (selected > lc) ? selected - lc : lc - selected;
if (proc_colors) {
end = Theme::c("main_fg") + Fx::ub;
array<string, 3> colors;
for (int i = 0; int v : {(int)round(p.cpu_p), (int)round(p.mem * 100 / totalMem), (int)p.threads / 3}) {
if (proc_gradient) {
int val = (min(v, 100) + 100) - calc * 100 / select_max;
if (val < 100) colors[i++] = Theme::g("proc_color").at(max(0, val));
else colors[i++] = Theme::g("process").at(clamp(val - 100, 0, 100));
}
else
colors[i++] = Theme::g("process").at(clamp(v, 0, 100));
}
c_color = colors.at(0); m_color = colors.at(1); t_color = colors.at(2);
}
else {
c_color = m_color = t_color = Fx::b;
end = Fx::ub;
}
if (proc_gradient) {
g_color = Theme::g("proc").at(clamp(calc * 100 / select_max, 0, 100));
}
}
if (not p_wide_cmd.contains(p.pid)) p_wide_cmd[p.pid] = ulen(p.cmd) != ulen(p.cmd, true);
//? Normal view line
if (not proc_tree) {
out += Mv::to(y+2+lc, x+1)
+ g_color + rjust(to_string(p.pid), 8) + ' '
+ c_color + ljust(p.name, prog_size, true) + ' ' + end
+ (cmd_size > 0 ? g_color + ljust(p.cmd, cmd_size, true, p_wide_cmd[p.pid]) + Mv::to(y+2+lc, x+11+prog_size+cmd_size) + ' ' : "");
}
//? Tree view line
else {
const string prefix_pid = p.prefix + to_string(p.pid);
int width_left = tree_size;
out += Mv::to(y+2+lc, x+1) + g_color + uresize(prefix_pid, width_left) + ' ';
width_left -= ulen(prefix_pid);
if (width_left > 0) {
out += c_color + uresize(p.name, width_left - 1) + end + ' ';
width_left -= (ulen(p.name) + 1);
}
if (width_left > 7) {
const string& cmd = width_left > 40 ? rtrim(p.cmd) : p.short_cmd;
if (not cmd.empty() and cmd != p.name) {
out += g_color + '(' + uresize(cmd, width_left - 3, p_wide_cmd[p.pid]) + ") ";
width_left -= (ulen(cmd, true) + 3);
}
}
out += string(max(0, width_left), ' ') + Mv::to(y+2+lc, x+2+tree_size);
}
//? Common end of line
string cpu_str = to_string(p.cpu_p);
if (p.cpu_p < 10 or (p.cpu_p >= 100 and p.cpu_p < 1000)) cpu_str.resize(3);
else if (p.cpu_p >= 10'000) {
cpu_str = to_string(p.cpu_p / 1000);
cpu_str.resize(3);
if (cpu_str.ends_with('.')) cpu_str.pop_back();
cpu_str += "k";
}
string mem_str = (mem_bytes ? floating_humanizer(p.mem, true) : "");
if (not mem_bytes) {
double mem_p = clamp((double)p.mem * 100 / totalMem, 0.0, 100.0);
mem_str = to_string(mem_p);
if (mem_str.size() < 4) mem_str = "0";
else mem_str.resize((mem_p < 10 or mem_p >= 100 ? 3 : 4));
mem_str += '%';
}
out += (thread_size > 0 ? t_color + rjust(to_string(min(p.threads, (size_t)9999)), thread_size) + ' ' + end : "" )
+ g_color + ljust((cmp_greater(p.user.size(), user_size) ? p.user.substr(0, user_size - 1) + '+' : p.user), user_size) + ' '
+ m_color + rjust(mem_str, 5) + end + ' '
+ (is_selected ? "" : Theme::c("inactive_fg")) + (show_graphs ? graph_bg * 5: "")
+ (p_graphs.contains(p.pid) ? Mv::l(5) + c_color + p_graphs.at(p.pid)({(p.cpu_p >= 0.1 and p.cpu_p < 5 ? 5ll : (long long)round(p.cpu_p))}, data_same) : "") + end + ' '
+ c_color + rjust(cpu_str, 4) + " " + end;
if (lc++ > height - 5) break;
}
out += Fx::reset;
while (lc++ < height - 5) out += Mv::to(y+lc+1, x+1) + string(width - 2, ' ');
//? Draw scrollbar if needed
if (numpids > select_max) {
const int scroll_pos = clamp((int)round((double)start * select_max / (numpids - select_max)), 0, height - 5);
out += Mv::to(y + 1, x + width - 2) + Fx::b + Theme::c("main_fg") + Symbols::up
+ Mv::to(y + height - 2, x + width - 2) + Symbols::down
+ Mv::to(y + 2 + scroll_pos, x + width - 2) + "";
}
//? Current selection and number of processes
string location = to_string(start + selected) + '/' + to_string(numpids);
string loc_clear = Symbols::h_line * max((size_t)0, 9 - location.size());
out += Mv::to(y + height - 1, x+width - 3 - max(9, (int)location.size())) + Fx::ub + Theme::c("proc_box") + loc_clear
+ Symbols::title_left_down + Theme::c("title") + Fx::b + location + Fx::ub + Theme::c("proc_box") + Symbols::title_right_down;
//? Clear out left over graphs from dead processes at a regular interval
if (not data_same and ++counter >= 100) {
counter = 0;
for (auto element = p_graphs.begin(); element != p_graphs.end();) {
if (rng::find(plist, element->first, &proc_info::pid) == plist.end()) {
element = p_graphs.erase(element);
p_counters.erase(element->first);
}
else
++element;
}
p_graphs.compact();
p_counters.compact();
for (auto element = p_wide_cmd.begin(); element != p_wide_cmd.end();) {
if (rng::find(plist, element->first, &proc_info::pid) == plist.end()) {
element = p_wide_cmd.erase(element);
}
else
++element;
}
p_wide_cmd.compact();
}
if (selected == 0 and selected_pid != 0) {
selected_pid = 0;
selected_name.clear();
}
redraw = false;
return out + Fx::reset;
}
}
namespace Draw {
void calcSizes() {
atomic_wait(Runner::active);
Config::unlock();
auto boxes = Config::getS("shown_boxes");
auto cpu_bottom = Config::getB("cpu_bottom");
auto mem_below_net = Config::getB("mem_below_net");
auto proc_left = Config::getB("proc_left");
Cpu::box.clear();
Gpu::box.clear();
Mem::box.clear();
Net::box.clear();
Proc::box.clear();
Global::clock.clear();
Global::overlay.clear();
Runner::pause_output = false;
Runner::redraw = true;
Proc::p_counters.clear();
Proc::p_graphs.clear();
if (Menu::active) Menu::redraw = true;
Input::mouse_mappings.clear();
Cpu::x = Mem::x = Net::x = Proc::x = 1;
Cpu::y = Mem::y = Net::y = Proc::y = 1;
Cpu::width = Gpu::width = Mem::width = Net::width = Proc::width = 0;
Cpu::height = Mem::height = Net::height = Proc::height = 0;
Cpu::redraw = Mem::redraw = Net::redraw = Proc::redraw = true;
Cpu::shown = s_contains(boxes, "cpu");
Gpu::shown_panels.clear();
if (not Gpu::gpu_names.empty()) {
std::istringstream iss(boxes, std::istringstream::in);
string current;
while (iss >> current)
if ( current == "gpu0"
or current == "gpu1"
or current == "gpu2"
or current == "gpu3"
or current == "gpu4"
or current == "gpu5"
) Gpu::shown_panels.push_back(current.back()-'0');
}
Gpu::shown = Gpu::shown_panels.size();
Mem::shown = s_contains(boxes, "mem");
Net::shown = s_contains(boxes, "net");
Proc::shown = s_contains(boxes, "proc");
//* Calculate and draw cpu box outlines
if (Cpu::shown) {
using namespace Cpu;
const bool gpus_shown_in_cpu_panel = (
Config::getS("cpu_graph_lower") == "default"
or Config::getS("cpu_graph_lower").rfind("gpu-", 0) == 0
or Config::getS("cpu_graph_upper").rfind("gpu-", 0) == 0
) and Gpu::gpu_names.size() != (unsigned long)Gpu::shown;
const int gpus_height_offset = (Gpu::gpu_names.size() - Gpu::shown)*gpus_shown_in_cpu_panel;
const bool show_temp = (Config::getB("check_temp") and got_sensors);
width = round((double)Term::width * width_p / 100);
if (Gpu::shown != 0 and not (Mem::shown or Net::shown or Proc::shown)) {
height = Term::height/2;
} else {
height = max(8, (int)ceil((double)Term::height * (trim(boxes) == "cpu" ? 100 : height_p/(Gpu::shown+1) + (Gpu::shown != 0)*5) / 100));
}
if (height <= Term::height-2) height += gpus_height_offset;
x = 1;
y = cpu_bottom ? Term::height - height + 1 : 1;
b_columns = max(1, (int)ceil((double)(Shared::coreCount + 1) / (height - gpus_height_offset*(height <= Term::height-2) - 5)));
if (b_columns * (21 + 12 * show_temp) < width - (width / 3)) {
b_column_size = 2;
b_width = (21 + 12 * show_temp) * b_columns - (b_columns - 1);
}
else if (b_columns * (15 + 6 * show_temp) < width - (width / 3)) {
b_column_size = 1;
b_width = (15 + 6 * show_temp) * b_columns - (b_columns - 1);
}
else if (b_columns * (8 + 6 * show_temp) < width - (width / 3)) {
b_column_size = 0;
}
else {
b_columns = (width - width / 3) / (8 + 6 * show_temp);
b_column_size = 0;
}
if (b_column_size == 0) b_width = (8 + 6 * show_temp) * b_columns + 1;
b_height = min(height - 2, (int)ceil((double)Shared::coreCount / b_columns) + 4 + (int)gpus_height_offset - gpus_shown_in_cpu_panel);
b_x = x + width - b_width - 1;
b_y = y + ceil((double)(height - 2) / 2) - ceil((double)b_height / 2) + 1;
box = createBox(x, y, width, height, Theme::c("cpu_box"), true, (cpu_bottom ? "" : "cpu"), (cpu_bottom ? "cpu" : ""), 1);
auto& custom = Config::getS("custom_cpu_name");
const string cpu_title = uresize((custom.empty() ? Cpu::cpuName : custom) , b_width - 14);
box += createBox(b_x, b_y, b_width, b_height, "", false, cpu_title);
}
//* Calculate and draw gpu box outlines
if (Gpu::shown != 0) {
using namespace Gpu;
x_vec.resize(shown); y_vec.resize(shown);
b_x_vec.resize(shown); b_y_vec.resize(shown);
box.resize(shown);
graph_upper_vec.resize(shown); graph_lower_vec.resize(shown);
temp_graph_vec.resize(shown);
mem_used_graph_vec.resize(shown); mem_util_graph_vec.resize(shown);
gpu_meter_vec.resize(shown);
pwr_meter_vec.resize(shown);
redraw.resize(shown);
mid_line.resize(shown);
for (auto i = 0; i < shown; ++i) {
redraw[i] = true;
width = Term::width;
height = max(min_height, Cpu::shown ? Cpu::height : (int)ceil((double)Term::height * height_p / 100));
height += (height+Cpu::height == Term::height-1);
x_vec[i] = 1; y_vec[i] = 1 + i*height + (not Config::getB("cpu_bottom"))*Cpu::shown*Cpu::height;
box[i] = createBox(x_vec[i], y_vec[i], width, height, Theme::c("cpu_box"), true, std::string("gpu") + (char)(shown_panels[i]+'0'), "", (shown_panels[i]+5)%10); // TODO gpu_box
b_height = 9;
b_width = clamp(width/2, min_width, b_height*6);
//? Main statistics box
b_x_vec[i] = x_vec[i] + width - b_width - 1;
b_y_vec[i] = y_vec[i] + ceil((double)(height - 2) / 2) - ceil((double)(b_height) / 2) + 1;
box[i] += createBox(b_x_vec[i], b_y_vec[i], b_width, b_height, "", false, gpu_names[shown_panels[i]].substr(0, b_width-5));
}
}
//* Calculate and draw mem box outlines
if (Mem::shown) {
using namespace Mem;
auto show_disks = Config::getB("show_disks");
auto swap_disk = Config::getB("swap_disk");
auto mem_graphs = Config::getB("mem_graphs");
width = round((double)Term::width * (Proc::shown ? width_p : 100) / 100);
height = ceil((double)Term::height * (100 - Net::height_p * Net::shown*4 / ((Gpu::shown != 0 and Cpu::shown) + 4)) / 100) - Cpu::height - Gpu::height*Gpu::shown;
x = (proc_left and Proc::shown) ? Term::width - width + 1: 1;
if (mem_below_net and Net::shown)
y = Term::height - height + 1 - (cpu_bottom ? Cpu::height + Gpu::height*Gpu::shown : 0);
else
y = cpu_bottom ? 1 : Cpu::height + Gpu::height*Gpu::shown + 1;
if (show_disks) {
mem_width = ceil((double)(width - 3) / 2);
mem_width += mem_width % 2;
disks_width = width - mem_width - 2;
divider = x + mem_width;
}
else
mem_width = width - 1;
item_height = has_swap and not swap_disk ? 6 : 4;
if (height - (has_swap and not swap_disk ? 3 : 2) > 2 * item_height)
mem_size = 3;
else if (mem_width > 25)
mem_size = 2;
else
mem_size = 1;
mem_meter = max(0, mem_width - (mem_size > 2 ? 7 : 17));
if (mem_size == 1) mem_meter += 6;
if (mem_graphs) {
graph_height = max(1, (int)round((double)((height - (has_swap and not swap_disk ? 2 : 1)) - (mem_size == 3 ? 2 : 1) * item_height) / item_height));
if (graph_height > 1) mem_meter += 6;
}
else
graph_height = 0;
if (show_disks) {
disk_meter = max(-14, width - mem_width - 23);
if (disks_width < 25) disk_meter += 14;
}
box = createBox(x, y, width, height, Theme::c("mem_box"), true, "mem", "", 2);
box += Mv::to(y, (show_disks ? divider + 2 : x + width - 9)) + Theme::c("mem_box") + Symbols::title_left + (show_disks ? Fx::b : "")
+ Theme::c("hi_fg") + 'd' + Theme::c("title") + "isks" + Fx::ub + Theme::c("mem_box") + Symbols::title_right;
Input::mouse_mappings["d"] = {y, (show_disks ? divider + 3 : x + width - 8), 1, 5};
if (show_disks) {
box += Mv::to(y, divider) + Symbols::div_up + Mv::to(y + height - 1, divider) + Symbols::div_down + Theme::c("div_line");
for (auto i : iota(1, height - 1))
box += Mv::to(y + i, divider) + Symbols::v_line;
}
}
//* Calculate and draw net box outlines
if (Net::shown) {
using namespace Net;
width = round((double)Term::width * (Proc::shown ? width_p : 100) / 100);
height = Term::height - Cpu::height - Gpu::height*Gpu::shown - Mem::height;
x = (proc_left and Proc::shown) ? Term::width - width + 1 : 1;
if (mem_below_net and Mem::shown)
y = cpu_bottom ? 1 : Cpu::height + Gpu::height*Gpu::shown + 1;
else
y = Term::height - height + 1 - (cpu_bottom ? Cpu::height : 0);
b_width = (width > 45) ? 27 : 19;
b_height = (height > 10) ? 9 : height - 2;
b_x = x + width - b_width - 1;
b_y = y + ((height - 2) / 2) - b_height / 2 + 1;
d_graph_height = round((double)(height - 2) / 2);
u_graph_height = height - 2 - d_graph_height;
box = createBox(x, y, width, height, Theme::c("net_box"), true, "net", "", 3);
box += createBox(b_x, b_y, b_width, b_height, "", false, "download", "upload");
}
//* Calculate and draw proc box outlines
if (Proc::shown) {
using namespace Proc;
width = Term::width - (Mem::shown ? Mem::width : (Net::shown ? Net::width : 0));
height = Term::height - Cpu::height - Gpu::height*Gpu::shown;
x = proc_left ? 1 : Term::width - width + 1;
y = (cpu_bottom and Cpu::shown) ? 1 : Cpu::height + Gpu::height*Gpu::shown + 1;
select_max = height - 3;
box = createBox(x, y, width, height, Theme::c("proc_box"), true, "proc", "", 4);
}
}
}