Set panning when changing modes with XRandR

[libs/gui.git] / source / graphics / x11 / display.cpp

#include <iostream>
#include <X11/Xlib.h>
#ifdef WITH_XRANDR
#include <X11/extensions/Xrandr.h>
#endif
#include <msp/io/print.h>
#include <msp/strings/format.h>
#include <msp/strings/lexicalcast.h>
#include "display.h"
#include "display_private.h"

using namespace std;

namespace {

bool error_flag = false;
std::string error_msg;

int x_error_handler(Display *display, XErrorEvent *event)
{
        char err[128];
        XGetErrorText(display, event->error_code, err, sizeof(err));

        string request_code = Msp::lexical_cast<string, int>(event->request_code);
        char req[128];
        XGetErrorDatabaseText(display, "XRequest", request_code.c_str(), request_code.c_str(), req, sizeof(req));

        string msg = Msp::format("Request %s failed with %s [%08X]", req, err, event->resourceid);
        if(error_flag)
                Msp::IO::print(Msp::IO::cerr, "Discarding error: %s\n", msg);
        else
        {
                Msp::IO::print(Msp::IO::cerr, "%s\n", msg);
                error_msg = msg;
                error_flag = true;
        }

        return 0;
}

inline Msp::Graphics::VideoRotation rotation_from_sys(Rotation r)
{
        switch(r)
        {
        case RR_Rotate_90: return Msp::Graphics::ROTATE_RIGHT;
        case RR_Rotate_180: return Msp::Graphics::ROTATE_INVERTED;
        case RR_Rotate_270: return Msp::Graphics::ROTATE_LEFT;
        default: return Msp::Graphics::ROTATE_NORMAL;
        }
}

inline Rotation rotation_to_sys(Msp::Graphics::VideoRotation r)
{
        switch(r)
        {
        case Msp::Graphics::ROTATE_RIGHT: return RR_Rotate_90;
        case Msp::Graphics::ROTATE_INVERTED: return RR_Rotate_180;
        case Msp::Graphics::ROTATE_LEFT: return RR_Rotate_270;
        default: return RR_Rotate_0;
        }
}

bool monitor_x_compare(const Msp::Graphics::Monitor &m1, const Msp::Graphics::Monitor &m2)
{
        if(m1.desktop_mode && !m2.desktop_mode)
                return true;
        return m1.x<m2.x;
}

inline unsigned mode_width(const Msp::Graphics::VideoMode &m, Msp::Graphics::VideoRotation r)
{
        if(r==Msp::Graphics::ROTATE_RIGHT || r==Msp::Graphics::ROTATE_LEFT)
                return m.height;
        else
                return m.width;
}

}


namespace Msp {
namespace Graphics {

Display::Display(const string &disp_name):
        primary_monitor(0),
        priv(new Private)
{
        if(disp_name.empty())
                priv->display = XOpenDisplay(0);
        else
                priv->display = XOpenDisplay(disp_name.c_str());
        if(!priv->display)
                throw runtime_error("XOpenDisplay");

        XSetErrorHandler(x_error_handler);

        err_dialog = new ErrorDialog(this);

#ifdef WITH_XRANDR
        int event_base;
        int error_base;
        if(XRRQueryExtension(priv->display, &event_base, &error_base))
        {
                int major, minor;
                XRRQueryVersion(priv->display, &major, &minor);
                if(major>1 || (major==1 && minor>=2))
                {
                        WindowHandle root = DefaultRootWindow(priv->display);
                        XRRScreenResources *res = XRRGetScreenResources(priv->display, root);
                        RROutput primary = XRRGetOutputPrimary(priv->display, root);

                        map<RRMode, XRRModeInfo *> modes_by_id;
                        for(int i=0; i<res->nmode; ++i)
                                modes_by_id[res->modes[i].id] = &res->modes[i];

                        for(int i=0; i<res->noutput; ++i)
                        {
                                XRROutputInfo *output = XRRGetOutputInfo(priv->display, res, res->outputs[i]);
                                XRRCrtcInfo *crtc = (output->crtc ? XRRGetCrtcInfo(priv->display, res, output->crtc) : 0);

                                monitors.push_back(Monitor());
                                Monitor &monitor = monitors.back();
                                monitor.index = monitors.size()-1;
                                priv->monitors.push_back(res->outputs[i]);

                                if(crtc)
                                {
                                        monitor.desktop_rotation = rotation_from_sys(crtc->rotation);
                                        monitor.current_rotation = monitor.desktop_rotation;
                                        monitor.x = crtc->x;
                                        monitor.y = crtc->y;
                                }

                                if(res->outputs[i]==primary)
                                        primary_monitor = &monitor;

                                for(int j=0; j<output->nmode; ++j)
                                {
                                        map<RRMode, XRRModeInfo *>::iterator k = modes_by_id.find(output->modes[j]);
                                        if(k==modes_by_id.end())
                                                continue;

                                        XRRModeInfo *info = k->second;

                                        VideoMode mode(info->width, info->height);
                                        mode.index = modes.size();
                                        mode.monitor = &monitor;
                                        mode.rate = info->dotClock/(info->hTotal*info->vTotal);
                                        if(find_mode(mode))
                                                continue;

                                        modes.push_back(mode);
                                        priv->modes.push_back(info->id);
                                        monitor.video_modes.push_back(&modes.back());

                                        if(crtc && info->id==crtc->mode)
                                        {
                                                monitor.desktop_mode = &modes.back();
                                                monitor.current_mode = monitor.desktop_mode;
                                        }
                                }

                                XRRFreeOutputInfo(output);
                                if(crtc)
                                        XRRFreeCrtcInfo(crtc);
                        }

                        XRRFreeScreenResources(res);

                        monitors.sort(monitor_x_compare);
                        Monitor *prev_enabled = 0;
                        for(list<Monitor>::iterator i=monitors.begin(); i!=monitors.end(); ++i)
                                if(i->desktop_mode)
                                {
                                        i->next_left = prev_enabled;
                                        if(prev_enabled)
                                                prev_enabled->next_right = &*i;
                                        prev_enabled = &*i;
                                }

                        if(!primary_monitor || !primary_monitor->desktop_mode)
                        {
                                // XRandR didn't give a sensible primary monitor.  Try to guess one.
                                unsigned largest = 0;
                                for(list<Monitor>::iterator i=monitors.begin(); i!=monitors.end(); ++i)
                                        if(i->desktop_mode)
                                        {
                                                unsigned size = i->desktop_mode->width*i->desktop_mode->height;
                                                if(size>largest)
                                                {
                                                        largest = size;
                                                        primary_monitor = &*i;
                                                }
                                        }
                        }
                }
        }
#endif
}

Display::~Display()
{
        XCloseDisplay(priv->display);
        delete priv;
        delete err_dialog;
}

void Display::set_mode(const VideoMode &requested_mode, bool exclusive)
{
#ifdef WITH_XRANDR
        const VideoMode *mode = find_mode(requested_mode);
        if(!mode)
                throw unsupported_video_mode(requested_mode);

        VideoRotation requested_rotation = requested_mode.rotation;
        if(requested_rotation==ROTATE_ANY)
                requested_rotation = mode->monitor->desktop_rotation;

        WindowHandle root = DefaultRootWindow(priv->display);
        XRRScreenResources *res = XRRGetScreenResources(priv->display, root);
        RROutput output = priv->monitors[mode->monitor->index];
        XRROutputInfo *output_info = XRRGetOutputInfo(priv->display, res, output);

        // Check if the output already has a CRTC and find a free one if it doesn't
        RRCrtc crtc = output_info->crtc;
        XRRCrtcInfo *crtc_info = 0;
        if(crtc)
                crtc_info = XRRGetCrtcInfo(priv->display, res, crtc);
        else
        {
                for(int i=0; i<res->ncrtc; ++i)
                {
                        crtc_info = XRRGetCrtcInfo(priv->display, res, res->crtcs[i]);
                        if(!crtc_info->noutput)
                        {
                                crtc = res->crtcs[i];
                                break;
                        }
                        XRRFreeCrtcInfo(crtc_info);
                }

                if(!crtc)
                {
                        XRRFreeOutputInfo(output_info);
                        throw unsupported_video_mode(requested_mode);
                }
        }

        int x = 0;
        int y = 0;

        if(exclusive)
        {
                // Disable other outputs for exclusive mode
                for(list<Monitor>::iterator i=monitors.begin(); i!=monitors.end(); ++i)
                        if(&*i!=mode->monitor)
                        {
                                XRROutputInfo *o = XRRGetOutputInfo(priv->display, res, priv->monitors[i->index]);
                                if(o->crtc)
                                        XRRSetCrtcConfig(priv->display, res, o->crtc, CurrentTime, 0, 0, 0, RR_Rotate_0, 0, 0);
                                XRRFreeOutputInfo(o);

                                i->current_mode = 0;
                                i->current_rotation = ROTATE_NORMAL;
                                i->x = 0;
                                i->y = 0;
                        }
        }
        else
        {
                const Monitor *left = mode->monitor->next_left;
                while(left && !left->current_mode)
                        left = left->next_left;

                if(left)
                {
                        x = left->x+mode_width(*left->current_mode, left->current_rotation);
                        y = left->y;
                }
        }

        XRRSetCrtcConfig(priv->display, res, crtc, CurrentTime, x, y, priv->modes[mode->index], rotation_to_sys(requested_rotation), &output, 1);

        list<Monitor>::iterator i;
        for(i=monitors.begin(); i!=monitors.end(); ++i)
                if(&*i==mode->monitor)
                {
                        i->current_mode = mode;
                        i->current_rotation = requested_rotation;
                        i->x = x;
                        i->y = y;

                        x += mode_width(*mode, requested_rotation);
                        ++i;
                        break;
                }

        for(; i!=monitors.end(); ++i)
                if(i->current_mode)
                {
                        XRROutputInfo *o = XRRGetOutputInfo(priv->display, res, priv->monitors[i->index]);
                        XRRSetCrtcConfig(priv->display, res, o->crtc, CurrentTime, x, y, priv->modes[i->current_mode->index], rotation_to_sys(i->current_rotation), &priv->monitors[i->index], 1);

                        XRRPanning panning;
                        panning.timestamp = CurrentTime;
                        panning.left = x;
                        panning.top = y;
                        panning.width = i->current_mode->width;
                        panning.height = i->current_mode->height;
                        panning.track_left = panning.left;
                        panning.track_top = panning.top;
                        panning.track_width = panning.width;
                        panning.track_height = panning.height;
                        panning.border_left = 0;
                        panning.border_top = 0;
                        panning.border_right = 0;
                        panning.border_bottom = 0;
                        XRRSetPanning(priv->display, res, o->crtc, &panning);

                        XRRFreeOutputInfo(o);

                        i->x = x;
                        i->y = y;

                        x += mode_width(*i->current_mode, i->current_rotation);
                }

        XRRFreeOutputInfo(output_info);
        XRRFreeCrtcInfo(crtc_info);
        XRRFreeScreenResources(res);
#else
        (void)requested_mode;
        (void)exclusive;
        throw runtime_error("no xrandr support");
#endif
}

bool Display::process_events()
{
        int pending = XPending(priv->display);
        if(pending==0)
                return false;

        for(; pending--;)
        {
                Window::Event event;
                XNextEvent(priv->display, &event.xevent);

                check_error();

                map<WindowHandle, Window *>::iterator j = priv->windows.find(event.xevent.xany.window);
                if(j!=priv->windows.end())
                {
                        /* Filter keyboard autorepeat.  If this packet is a KeyRelease and
                        the next one is a KeyPress with the exact same parameters, they
                        indicate autorepeat and must be dropped. */
                        if(event.xevent.type==KeyRelease && !j->second->get_keyboard_autorepeat() && pending>0)
                        {
                                XKeyEvent &kev = event.xevent.xkey;
                                XEvent ev2;
                                XPeekEvent(priv->display, &ev2);
                                if(ev2.type==KeyPress)
                                {
                                        XKeyEvent &kev2 = ev2.xkey;
                                        if(kev2.window==kev.window && kev2.time==kev.time && kev2.keycode==kev.keycode)
                                        {
                                                XNextEvent(priv->display, &ev2);
                                                --pending;
                                                continue;
                                        }
                                }
                        }

                        j->second->event(event);
                }
        }

        return true;
}

void Display::check_error()
{
        if(error_flag)
        {
                error_flag = false;
                throw runtime_error(error_msg);
        }
}

} // namespace Msp
} // namespace Graphics