path: root/core/client.cpp

#include <arpa/inet.h>
#include <GLFW/glfw3.h>
#include <imgui_impl_glfw.h>
#include <imgui_impl_opengl3.h>
#include <implot.h>
#include <json-c/json.h>
#include <math.h>
#include <signal.h>
#include <threads.h>

#include <algorithm>
#include <array>
#include <map>
#include <tuple>
#include <vector>

#include "logger.c"

// ----------------------------------------------------------------------------
// Defines
// ----------------------------------------------------------------------------
#define COLOR_BLACK ImVec4(0.f, 0.f, 0.f, 1.f)
#define FONT_SIZE 12.f
#define FONT_SOURCE "/usr/share/fonts/droid/DroidSansMono.ttf"
#define GLSL_VERSION "#version 130"
#define PLOT_MAX_COLS 8
#define PLOT_MIN_COLS 1
#define PLOT_SCROLL_OFFSET 28.f

#define IMGUI_WINDOW_FLAGS ( \
    ImGuiWindowFlags_NoBackground | \
    ImGuiWindowFlags_NoDecoration | \
    ImGuiWindowFlags_NoMove | \
    ImGuiWindowFlags_NoSavedSettings \
)

#define DATA_FETCH_INTERVAL 10
#define DATA_FETCH_INTERVAL_SUBDIV 1000

#define DEFVAL_ENTRIES 0x800l
#define DEFVAL_NTH 1l
#define DEFVAL_X_AXIS 0
#define DEFVAL_X_LOW 0l
#define DEFVAL_X_HIGH INT64_MAX
#define DEFVAL_HM_LEFT 0l
#define DEFVAL_HM_PIXEL_COUNT 0x400l

// ----------------------------------------------------------------------------
// Declarations
// ----------------------------------------------------------------------------
enum Status {
    STATUS_STOPPED,
    STATUS_RUNNING,
    STATUS_STOPPING,
};

struct CompString {
    bool operator()(const char *a, const char *b) const {
        return strcmp(a, b) < 0;
    }
};

struct Plot {
    const char *name;
    const char *section;
    std::vector<const char *> traces;
};

// ----------------------------------------------------------------------------
// Plots
// ----------------------------------------------------------------------------
#include "arch_plots.cpp"

template <class T, size_t N, size_t M>
std::array<T, N + M> merge_array(const std::array<T, N> &first, const std::array<T, M> &second) {
    std::array<T, N + M> result{};
    for (size_t i = 0; i < N; i++) result[i] = first[i];
    for (size_t i = 0; i < M; i++) result[N + i] = second[i];
    return result;
}

std::array g_core_traces = std::to_array<const char *>({
    "rowid",
    "step",
#define FOR_CORE(i) \
    "cycl_" #i, \
    "mall_" #i, \
    "pnum_" #i, \
    "pfst_" #i, \
    "plst_" #i, \
    "amb0_" #i, \
    "amb1_" #i, \
    "emb0_" #i, \
    "emb1_" #i, \
    "eliv_" #i, \
    "edea_" #i,
    FOR_CORES
#undef FOR_CORE
});

std::array g_core_plots = std::to_array<Plot>({
    {"cycl", "general", {
#define FOR_CORE(i) "cycl_" #i,
        FOR_CORES
#undef FOR_CORE
    }},
    {"mall", "general", {
#define FOR_CORE(i) "mall_" #i,
        FOR_CORES
#undef FOR_CORE
    }},
    {"pnum", "general", {
#define FOR_CORE(i) "pnum_" #i,
        FOR_CORES
#undef FOR_CORE
    }},
    {"ppop", "general", {
#define FOR_CORE(i) "pfst_" #i, "plst_" #i,
        FOR_CORES
#undef FOR_CORE
    }},
    {"ambs", "general", {
#define FOR_CORE(i) "amb0_" #i, "amb1_" #i,
        FOR_CORES
#undef FOR_CORE
    }},
    {"eevs", "general", {
#define FOR_CORE(i) "emb0_" #i, "emb1_" #i, "eliv_" #i, "edea_" #i,
        FOR_CORES
#undef FOR_CORE
    }},
});

std::map<const char *, std::vector<ImS64>, CompString> g_trace_map;
std::array g_traces = merge_array(g_core_traces, g_arch_traces);
std::array g_plots = merge_array(g_core_plots, g_arch_plots);

#define TRACE_COUNT g_traces.size()
#define PLOT_COUNT g_plots.size()

// ----------------------------------------------------------------------------
// Globals
// ----------------------------------------------------------------------------
GLFWwindow *g_window;
ImGuiIO *g_imgui_io;
ImGuiStyle *g_imgui_style;
ImPlotStyle *g_implot_style;

const char *g_x_axes[] = {
    "rowid",
    "step",
#define FOR_CORE(i) "cycl_" #i,
    FOR_CORES
#undef FOR_CORE
};

int g_status;
int g_x_axis = DEFVAL_X_AXIS;
int64_t g_entries = DEFVAL_ENTRIES;
int64_t g_nth = DEFVAL_NTH;
int64_t g_x_low = DEFVAL_X_LOW;
int64_t g_x_high = DEFVAL_X_HIGH;
int64_t g_hm_left = DEFVAL_HM_LEFT;
int64_t g_hm_pixel_count = DEFVAL_HM_PIXEL_COUNT;
int64_t g_hm_pixel_pow; // calculate on startup
int64_t g_x_current = -1l;

thrd_t g_fetching_thread;
mtx_t g_fetching_mutex;
int g_trace_len;
int g_trace_offset;

// Layout globals
bool g_data_col_visible = true;
bool g_plot_maximized;
bool g_plot_scroll;
float g_plot_scroll_current;
float g_plot_scroll_to;
float g_data_col_width;
float g_plot_cells_top[PLOT_MAX_COLS][PLOT_COUNT];
float g_plot_cells_bottom[PLOT_MAX_COLS][PLOT_COUNT];
Plot *g_plot_cells[PLOT_MAX_COLS][PLOT_COUNT];
Plot *g_plot_selected = &g_plots[0];
int g_plot_cols = 2;
int g_plot_col_selected;
int g_plot_row_selected;

// ----------------------------------------------------------------------------
// Data functions
// ----------------------------------------------------------------------------
int64_t data_max_hm_pixel_pow(void) {
    return (int64_t)floor(log2((double)(MVEC_SIZE - g_hm_left) / (double)g_hm_pixel_count));
}

void data_on_field_change(void) {
    g_entries = std::clamp(g_entries, 1l, DEFVAL_ENTRIES);
    g_nth = std::clamp(g_nth, DEFVAL_NTH, INT64_MAX);
    g_x_low = std::clamp(g_x_low, DEFVAL_X_LOW, INT64_MAX);
    g_x_high = std::clamp(g_x_high, g_x_low + 1l, DEFVAL_X_HIGH);
 #if !defined(MVEC_LOOP)
    g_hm_left = std::clamp(g_hm_left, DEFVAL_HM_LEFT, (int64_t)MVEC_SIZE);
 #endif
    g_hm_pixel_count = std::clamp(g_hm_pixel_count, 1l, DEFVAL_HM_PIXEL_COUNT);
    g_hm_pixel_pow = std::clamp(g_hm_pixel_pow, 0l, data_max_hm_pixel_pow());

    g_x_current = -1l;

    for (auto &trace : g_trace_map) {
        trace.second.clear();
    }
}

void data_reset_fields(void) {
    g_entries = DEFVAL_ENTRIES;
    g_nth = DEFVAL_NTH;
    g_x_axis = DEFVAL_X_AXIS;
    g_x_low = DEFVAL_X_LOW;
    g_x_high = DEFVAL_X_HIGH;
    g_hm_left = DEFVAL_HM_LEFT;
    g_hm_pixel_count = DEFVAL_HM_PIXEL_COUNT;
    g_hm_pixel_pow = data_max_hm_pixel_pow();

    g_trace_len = 0;
    g_trace_offset = 0;

    data_on_field_change();
}

void data_reset_plot_cells(void) {
    memset(g_plot_cells, 0, PLOT_MAX_COLS * PLOT_COUNT * sizeof(nullptr));
    memset(g_plot_cells_top, 0, PLOT_MAX_COLS * PLOT_COUNT * sizeof(float));
    memset(g_plot_cells_bottom, 0, PLOT_MAX_COLS * PLOT_COUNT * sizeof(float));
}

void data_fetch(void) {
    struct json_object *request = json_object_new_object();
    json_object_object_add(request, "request", json_object_new_string("data"));
    json_object_object_add(request, "entries", json_object_new_int64(g_entries));
    json_object_object_add(request, "nth", json_object_new_int64(g_nth));
    json_object_object_add(request, "x-axis", json_object_new_string(g_x_axes[g_x_axis]));
    json_object_object_add(request, "x-low", json_object_new_int64(g_x_low));
    json_object_object_add(request, "x-high", json_object_new_int64(g_x_high));
    json_object_object_add(request, "hm-left", json_object_new_int64(g_hm_left));
    json_object_object_add(request, "hm-pixel-count", json_object_new_int64(g_hm_pixel_count));
    json_object_object_add(request, "hm-pixel-pow", json_object_new_int64(g_hm_pixel_pow));
    json_object_object_add(request, "x-current", json_object_new_int64(g_x_current));
    const char *request_str = json_object_to_json_string(request);

    log_info("Sending request to server: %s", request_str);
    int socket_fd = socket(AF_INET, SOCK_STREAM, 0);
    struct sockaddr_in socket_addr;
    memset(&socket_addr, 0, sizeof(struct sockaddr_in));
    socket_addr.sin_family = AF_INET;
    socket_addr.sin_port = htons(PORT);
    inet_pton(AF_INET, IP, &socket_addr.sin_addr);
    if (connect(socket_fd, (struct sockaddr *)&socket_addr, sizeof(struct sockaddr_in))) assert(false);
    json_object_to_fd(socket_fd, request, 0);
    shutdown(socket_fd, SHUT_WR);

    struct json_object *response = json_object_from_fd(socket_fd);
    const char *response_str = json_object_to_json_string(response);
    log_info("Server responded with: %s", response_str);

    mtx_lock(&g_fetching_mutex);

    json_object_object_foreach(response, key, value) {
        if (g_trace_map.contains(key)) {
            for (size_t i = 0; i < json_object_array_length(value); i++) {
                ImS64 point = json_object_get_int64(json_object_array_get_idx(value, i));
                g_trace_map.at(key).push_back(point);
            }
        }
    }

    g_x_current = g_trace_map.at(g_x_axes[g_x_axis]).back();
    json_object_put(request);
    json_object_put(response);

    g_trace_len = g_trace_map.at("rowid").size();

    if (g_trace_len >= g_entries * 2) {
        for (auto &trace : g_trace_map) {
            trace.second.erase(trace.second.begin(), trace.second.end() - g_entries);
        }

        g_trace_len = g_trace_map.at("rowid").size();
    }

    g_trace_offset = 0;

    if (g_trace_len > g_entries) {
        g_trace_offset = g_trace_len - g_entries;
        g_trace_len = g_entries;
    }

    mtx_unlock(&g_fetching_mutex);
}

int data_fetching_thread(void *data) {
    (void)data;

    assert(!data);
    assert(g_status == STATUS_RUNNING || g_status == STATUS_STOPPING);

    while (g_status == STATUS_RUNNING) {
        data_fetch();

        for (int i = 0; i < DATA_FETCH_INTERVAL_SUBDIV && g_status == STATUS_RUNNING; i++) {
            usleep((DATA_FETCH_INTERVAL * 1000000) / DATA_FETCH_INTERVAL_SUBDIV);
        }
    }

    assert(g_status == STATUS_STOPPING);
    g_status = STATUS_STOPPED;
    return 0;
}

void data_start_fetching(void) {
    log_info("Starting data fetching thread");
    g_status = STATUS_RUNNING;
    thrd_create(&g_fetching_thread, (thrd_start_t)data_fetching_thread, nullptr);
}

void data_stop_fetching(void) {
    assert(g_status == STATUS_RUNNING);
    log_info("Stopping data fetching thread");
    g_status = STATUS_STOPPING;
    thrd_join(g_fetching_thread, nullptr);
}

// ----------------------------------------------------------------------------
// GUI functions
// ----------------------------------------------------------------------------
void gui_render_data_input(const char *label, int64_t *target) {
    assert(label);
    assert(target);

    if (ImGui::InputScalar(label, ImGuiDataType_U64, target, nullptr, nullptr, "%#lx")) {
        data_on_field_change();
    }
}

void gui_render_data_col(void) {
    const ImGuiViewport *viewport = ImGui::GetMainViewport();
    const ImVec2 win_pos = viewport->Pos;
    const ImVec2 win_size = ImVec2(-1.f, viewport->Size.y);

    ImGui::SetNextWindowPos(win_pos);
    ImGui::SetNextWindowSize(win_size);
    ImGui::Begin("data-col", nullptr, IMGUI_WINDOW_FLAGS);
    g_data_col_width = ImGui::GetWindowWidth();

    ImGui::SeparatorText("SALIS data client");
    ImGui::LabelText("name", NAME);
    ImGui::LabelText("seed", "%#lx", SEED);
    ImGui::LabelText("server", IP ":" PORT_STR);
    ImGui::LabelText("arch", ARCH);
    ImGui::LabelText("cores", "%d", CORES);
    ImGui::LabelText("mvec-size", "%#lx", MVEC_SIZE);
 #if defined(MVEC_LOOP)
    ImGui::LabelText("mvec-loop", "true");
 #else
    ImGui::LabelText("mvec-loop", "false");
 #endif
    ImGui::LabelText("data-push", "%#lx", DATA_PUSH_INTERVAL);

    ImGui::SeparatorText("Data fields");

    switch (g_status) {
    case STATUS_STOPPED:
        gui_render_data_input("entries", &g_entries);
        gui_render_data_input("nth", &g_nth);

        if (ImGui::BeginCombo("x-axis", g_x_axes[g_x_axis])) {
            for (int i = 0; i < CORES + 2; i++) {
                if (ImGui::Selectable(g_x_axes[i], g_x_axis == i)) {
                    data_reset_fields();
                    g_x_axis = i;
                }
            }

            ImGui::EndCombo();
        }

        gui_render_data_input("x-low", &g_x_low);
        gui_render_data_input("x-high", &g_x_high);
        gui_render_data_input("hm-left", &g_hm_left);
        gui_render_data_input("hm-pxl-count", &g_hm_pixel_count);
        gui_render_data_input("hm-pxl-pow", &g_hm_pixel_pow);
        break;
    case STATUS_RUNNING:
    case STATUS_STOPPING:
        ImGui::LabelText("entries", "%#lx", g_entries);
        ImGui::LabelText("nth", "%#lx", g_nth);
        ImGui::LabelText("x-axis", "%s", g_x_axes[g_x_axis]);
        ImGui::LabelText("x-low", "%#lx", g_x_low);
        ImGui::LabelText("x-high", "%#lx", g_x_high);
        ImGui::LabelText("hm-left", "%#lx", g_hm_left);
        ImGui::LabelText("hm-pxl-count", "%#lx", g_hm_pixel_count);
        ImGui::LabelText("hm-pxl-pow", "%#lx", g_hm_pixel_pow);
    }

    switch (g_status) {
    case STATUS_STOPPED:
        if (ImGui::Button("Run", ImVec2(-1.f, 0.f))) {
            data_start_fetching();
        }

        if (ImGui::Button("Reset", ImVec2(-1.f, 0.f))) {
            data_reset_fields();
        }

        break;
    case STATUS_RUNNING:
        if (ImGui::Button("Stop", ImVec2(-1.f, 0.f))) {
            data_stop_fetching();
        }

        ImGui::LabelText("##", "Running");
        break;
    case STATUS_STOPPING:
        ImGui::LabelText("##", "Stopping");
        break;
    }

    ImGui::SeparatorText("Layout");
    ImGui::SliderInt("cols", &g_plot_cols, PLOT_MIN_COLS, PLOT_MAX_COLS);
    ImGui::End();
}

void gui_render_plot(const Plot *plot, const ImVec2 &frame_size=ImVec2(-1.f, 0.f)) {
    int plot_flags = ImPlotFlags_NoMenus;
    int axis_flags = ImPlotAxisFlags_NoMenus;

    if (g_status != STATUS_STOPPED) {
        ImPlot::SetNextAxesToFit();
        plot_flags |= ImPlotFlags_NoInputs | ImPlotFlags_NoMouseText;
        axis_flags |= ImPlotAxisFlags_NoHighlight;
    }

    if (ImPlot::BeginPlot(plot->name, frame_size, plot_flags)) {
        ImPlot::SetupAxes(nullptr, nullptr, axis_flags, axis_flags);
        ImS64 *x = g_trace_map.at(g_x_axes[g_x_axis]).data() + g_trace_offset;

        for (auto &trace : plot->traces) {
            ImS64 *y = g_trace_map.at(trace).data() + g_trace_offset;
            ImPlot::PlotLine(trace, x, y, g_trace_len);
        }

        ImPlot::EndPlot();
    }
}

void gui_render_plots(void) {
    const char *section_current = g_plots[0].section;
    const char *section_next = nullptr;
    bool plots_covered[PLOT_COUNT] = { 0 };

    const ImGuiViewport *viewport = ImGui::GetMainViewport();
    const ImVec2 win_pos = g_data_col_visible ? ImVec2(g_data_col_width, viewport->Pos.y) : viewport->Pos;
    const ImVec2 win_size = g_data_col_visible ? ImVec2(viewport->Size.x - g_data_col_width, -1.f) : ImVec2(viewport->Size.x, -1.f);

    if (g_plot_scroll) {
        ImGui::SetNextWindowScroll(ImVec2(-1.f, g_plot_scroll_to));
        g_plot_scroll = false;
        g_plot_scroll_to = 0.f;
    }

    ImGui::SetNextWindowPos(win_pos);
    ImGui::SetNextWindowSize(win_size);
    ImGui::Begin("plots", nullptr, IMGUI_WINDOW_FLAGS);
    g_plot_scroll_current = ImGui::GetScrollY();

    int col = 0;
    int row = 0;

    mtx_lock(&g_fetching_mutex);

    while (section_current) {
        ImGui::SeparatorText(section_current);
        ImGui::BeginTable("plots-table", g_plot_cols);

        for (size_t i = 0; i < PLOT_COUNT; i++) {
            if (g_plots[i].section != section_current) {
                section_next = (!section_next && !plots_covered[i]) ? g_plots[i].section : section_next;
                continue;
            }

            ImGui::TableNextColumn();
            g_plot_cells[col][row] = &g_plots[i];
            g_plot_cells_top[col][row] = ImGui::GetCursorPosY();

            if (&g_plots[i] == g_plot_selected) {
                g_plot_col_selected = col;
                g_plot_row_selected = row;
                g_implot_style->Colors[ImPlotCol_FrameBg] = g_imgui_style->Colors[ImGuiCol_FrameBg];
            }

            gui_render_plot(&g_plots[i]);

            if (&g_plots[i] == g_plot_selected) {
                g_implot_style->Colors[ImPlotCol_FrameBg] = COLOR_BLACK;
            }

            g_plot_cells_bottom[col][row] = ImGui::GetCursorPosY();
            col = (col + 1) % g_plot_cols;
            row += col ? 0 : 1;
            plots_covered[i] = true;
        }

        section_current = section_next;
        section_next = nullptr;
        ImGui::EndTable();
        row += col ? 1 : 0;
        col = 0;
    }

    mtx_unlock(&g_fetching_mutex);

    ImGui::End();
}

void gui_render_plot_maximized(void) {
    const ImGuiViewport *viewport = ImGui::GetMainViewport();
    ImGui::SetNextWindowPos(viewport->Pos);
    ImGui::SetNextWindowSize(viewport->Size);
    ImGui::Begin("plot-fullscreen", nullptr, IMGUI_WINDOW_FLAGS);

    gui_render_plot(g_plot_selected, viewport->Size);

    ImGui::End();
}

void gui_plot_queue_scroll(int col_selected, int row_selected) {
    const ImGuiViewport *viewport = ImGui::GetMainViewport();
    float plot_top = g_plot_cells_top[col_selected][row_selected];
    float plot_bottom = g_plot_cells_bottom[col_selected][row_selected];
    float win_top = g_plot_scroll_current;
    float win_bottom = win_top + viewport->Size.y;

    if (plot_bottom > win_bottom) {
        g_plot_scroll_to = win_top + (plot_bottom - win_bottom);
        g_plot_scroll = true;
    }

    if (plot_top < win_top) {
        g_plot_scroll_to = plot_top - PLOT_SCROLL_OFFSET;
        g_plot_scroll = true;
    }
}

void gui_render(void) {
    if (g_plot_maximized) {
        gui_render_plot_maximized();
        return;
    }

    if (g_data_col_visible) {
        gui_render_data_col();
    }

    gui_render_plots();
}

// ----------------------------------------------------------------------------
// Main functions
// ----------------------------------------------------------------------------
void win_sig_handler(int signo) {
    (void)signo;

    log_warn("Signal received, will stop SALIS data client...");

    if (g_status == STATUS_RUNNING) {
        data_stop_fetching();
    }

    glfwSetWindowShouldClose(g_window, GLFW_TRUE);
}

void win_error_callback(int error, const char* description) {
    log_warn("GLFW error %d: %s", error, description);
}

void win_key_callback(GLFWwindow* window, int key, int scancode, int action, int mods) {
    (void)window;
    (void)scancode;

    if (action != GLFW_PRESS || ImGui::IsAnyItemActive()) {
        return;
    }

    if (g_plot_maximized) {
        if (mods == GLFW_MOD_CONTROL && key == GLFW_KEY_C) {
            glfwSetWindowShouldClose(g_window, GLFW_TRUE);
        }

        if (mods == 0 && key == GLFW_KEY_F) {
            g_plot_maximized = !g_plot_maximized;
        }

        return;
    }

    switch (mods) {
    case GLFW_MOD_CONTROL:
        switch (key) {
        case GLFW_KEY_C:
            glfwSetWindowShouldClose(g_window, GLFW_TRUE);
            break;
        case GLFW_KEY_N:
            g_data_col_visible = !g_data_col_visible;
            break;
        case GLFW_KEY_LEFT:
            g_plot_cols -= g_plot_cols > 1 ? 1 : 0;
            data_reset_plot_cells();
            break;
        case GLFW_KEY_RIGHT:
            g_plot_cols += g_plot_cols < PLOT_MAX_COLS ? 1 : 0;
            data_reset_plot_cells();
            break;
        }

        break;

    case 0:
        switch (key) {
        case GLFW_KEY_LEFT:
            g_plot_col_selected -= g_plot_col_selected ? 1 : 0;
            g_plot_selected = g_plot_cells[g_plot_col_selected][g_plot_row_selected];
            break;
        case GLFW_KEY_RIGHT:
            g_plot_col_selected += (g_plot_col_selected < PLOT_MAX_COLS - 1 && g_plot_cells[g_plot_col_selected + 1][g_plot_row_selected]) ? 1 : 0;
            g_plot_selected = g_plot_cells[g_plot_col_selected][g_plot_row_selected];
            break;
        case GLFW_KEY_UP:
            g_plot_row_selected -= g_plot_row_selected ? 1 : 0;
            g_plot_selected = g_plot_cells[g_plot_col_selected][g_plot_row_selected];
            gui_plot_queue_scroll(g_plot_col_selected, g_plot_row_selected);
            break;
        case GLFW_KEY_DOWN:
            g_plot_row_selected += (g_plot_row_selected < (int)PLOT_COUNT - 1 && g_plot_cells[g_plot_col_selected][g_plot_row_selected + 1]) ? 1 : 0;
            g_plot_selected = g_plot_cells[g_plot_col_selected][g_plot_row_selected];
            gui_plot_queue_scroll(g_plot_col_selected, g_plot_row_selected);
            break;
        case GLFW_KEY_F:
            g_plot_maximized = !g_plot_maximized;
            break;
        case GLFW_KEY_SPACE:
            switch (g_status) {
            case STATUS_STOPPED:
                data_start_fetching();
                break;
            case STATUS_RUNNING:
                data_stop_fetching();
                break;
            }

            break;
        }

        break;
    }
}

int main(int argc, char **argv) {
    (void)argc;
    (void)argv;

    signal(SIGINT, win_sig_handler);
    signal(SIGTERM, win_sig_handler);

    log_info("Starting SALIS data client");

    log_info("Initializing GLFW");
    glfwSetErrorCallback(win_error_callback);
    glfwInitHint(GLFW_WAYLAND_LIBDECOR, GLFW_WAYLAND_DISABLE_LIBDECOR);
    if (!glfwInit()) assert(false);

    float scale = ImGui_ImplGlfw_GetContentScaleForMonitor(glfwGetPrimaryMonitor());
    g_window = glfwCreateWindow((int)(800 * scale), (int)(600 * scale), "SALIS data client", nullptr, nullptr);
    assert(g_window);
    glfwSetKeyCallback(g_window, win_key_callback);
    glfwMakeContextCurrent(g_window);
    glfwSwapInterval(1); // enable vsync

    log_info("Initializing ImGui");
    IMGUI_CHECKVERSION();
    ImGui::CreateContext();
    ImPlot::CreateContext();

    g_imgui_io = &ImGui::GetIO();
    g_imgui_io->Fonts->AddFontFromFileTTF(FONT_SOURCE);
    g_imgui_io->IniFilename = nullptr;

    g_imgui_style = &ImGui::GetStyle();
    g_imgui_style->Colors[ImGuiCol_WindowBg] = COLOR_BLACK;
    g_imgui_style->FontScaleDpi = scale;
    g_imgui_style->FontSizeBase = FONT_SIZE;
    g_imgui_style->ItemSpacing = ImVec2(g_imgui_style->ItemSpacing.x, 2.f);
    g_imgui_style->ScaleAllSizes(scale);

    g_implot_style = &ImPlot::GetStyle();
    g_implot_style->Colors[ImPlotCol_FrameBg] = COLOR_BLACK;

    ImGui_ImplGlfw_InitForOpenGL(g_window, true);
    ImGui_ImplOpenGL3_Init(GLSL_VERSION);

    for (auto &i : g_traces) {
        g_trace_map[i] = {};
        g_trace_map[i].reserve(g_entries);
    }

    g_hm_pixel_pow = data_max_hm_pixel_pow();

    mtx_init(&g_fetching_mutex, mtx_plain);

    while (!glfwWindowShouldClose(g_window)) {
        glfwPollEvents();

        ImGui_ImplOpenGL3_NewFrame();
        ImGui_ImplGlfw_NewFrame();
        ImGui::NewFrame();

        gui_render();

        ImGui::Render();
        int display_w;
        int display_h;
        glfwGetFramebufferSize(g_window, &display_w, &display_h);
        glViewport(0, 0, display_w, display_h);
        glClearColor(0.f, 0.f, 0.f, 1.f);
        glClear(GL_COLOR_BUFFER_BIT);
        ImGui_ImplOpenGL3_RenderDrawData(ImGui::GetDrawData());
        glfwSwapBuffers(g_window);
    }

    mtx_destroy(&g_fetching_mutex);

    ImGui_ImplOpenGL3_Shutdown();
    ImGui_ImplGlfw_Shutdown();
    ImPlot::DestroyContext();
    ImGui::DestroyContext();

    log_info("Stopping SALIS data client");
    glfwDestroyWindow(g_window);
    glfwTerminate();

    return 0;
}