/* libtderandr.cpp - class KRandr that makes it easy to use XRandr in KDE This file is part of KRandr 0.9.5 Copyright (C) 2010 Timothy Pearson LibKRandr's homepage : http://www.trinitydesktop.org This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. Send comments and bug fixes to Timothy Pearson ***************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include "libtderandr.h" #include // FIXME // For now, just use the standalone xrandr program to apply the display settings #define USE_XRANDR_PROGRAM // This routine is courtsey of an answer on "Stack Overflow" // It takes an LSB-first int and makes it an MSB-first int (or vice versa) unsigned int reverse_bits(unsigned int x) { x = (((x & 0xaaaaaaaa) >> 1) | ((x & 0x55555555) << 1)); x = (((x & 0xcccccccc) >> 2) | ((x & 0x33333333) << 2)); x = (((x & 0xf0f0f0f0) >> 4) | ((x & 0x0f0f0f0f) << 4)); x = (((x & 0xff00ff00) >> 8) | ((x & 0x00ff00ff) << 8)); return((x >> 16) | (x << 16)); } // This routine returns the output of an arbitrary Bash command TQString exec(const char * cmd) { TQString bashcommand = cmd; bashcommand = bashcommand.replace("\"", "\\\""); bashcommand = TQString("/bin/bash -c \"%1\" 2>&1").arg(bashcommand); FILE* pipe = popen(bashcommand.ascii(), "r"); if (!pipe) return "ERROR"; char buffer[128]; TQString result = ""; while(!feof(pipe)) { if(fgets(buffer, 128, pipe) != NULL) { result += buffer; } } pclose(pipe); result.remove(result.length(), 1); return result; } TQString capitalizeString(TQString in) { return in.left(1).upper() + in.right(in.length()-1); } TQString KRandrSimpleAPI::getIccFileName(TQString profileName, TQString screenName, TQString kde_confdir) { KSimpleConfig *t_config = NULL; KSimpleConfig *t_systemconfig = NULL; int t_numberOfProfiles; TQStringList t_cfgProfiles; TQString retval; if ((profileName != NULL) && (profileName != "")) { t_config = new KSimpleConfig( TQString::fromLatin1( "kiccconfigrc" )); t_config->setGroup(NULL); if (t_config->readBoolEntry("EnableICC", false) == true) { t_config->setGroup(profileName); retval = t_config->readEntry(screenName); } else { retval = ""; } delete t_config; } else { t_systemconfig = new KSimpleConfig( kde_confdir + TQString("/kicc/kiccconfigrc") ); t_systemconfig->setGroup(NULL); if (t_systemconfig->readBoolEntry("EnableICC", false) == true) { retval = t_systemconfig->readEntry("ICCFile"); } else { retval = ""; } delete t_systemconfig; } return retval; } TQString KRandrSimpleAPI::applyIccFile(TQString screenName, TQString fileName) { int i; int j; Display *randr_display; ScreenInfo *randr_screen_info; XRROutputInfo *output_info; int screenNumber = 0; if (fileName != "") { // FIXME // This should use the RRSetCrtcGamma function when available // That is the only way to get proper setting when two output are active at the same time // (otherwise in clone mode only one screen is available) // HACK // For now, simply exit with no changes if screenName is not an active output if (isValid() == true) { screenNumber = -1; randr_display = tqt_xdisplay(); randr_screen_info = read_screen_info(randr_display); if (randr_screen_info == NULL) { return ""; } j=0; for (i = 0; i < randr_screen_info->n_output; i++) { output_info = randr_screen_info->outputs[i]->info; // Look for ON outputs... if (!randr_screen_info->outputs[i]->cur_crtc) { continue; } // ...that are connected if (RR_Disconnected == randr_screen_info->outputs[i]->info->connection) { continue; } if (output_info->name == screenName) { screenNumber = j; } j++; } freeScreenInfoStructure(randr_screen_info); } if (screenNumber >= 0) { // Apply ICC settings with XCalib TQString icc_command; FILE *pipe_xcalib; char xcalib_result[2048]; int i; xcalib_result[0]=0; icc_command = TQString("xcalib \"%1\"").arg(fileName); if ((pipe_xcalib = popen(icc_command.ascii(), "r")) == NULL) { printf("Xcalib pipe error\n [xcalib apply]"); } else { if (fgets(xcalib_result, 2048, pipe_xcalib)) { pclose(pipe_xcalib); for (i=1;i<2048;i++) { if (xcalib_result[i] == 0) { xcalib_result[i-1]=0; i=2048; } } if (strlen(xcalib_result) > 2) { return xcalib_result; } } else { return ""; } } } } else { // Reset ICC profile on this screen // FIXME // This should use the RRSetCrtcGamma function when available // That is the only way to get proper setting when two output are active at the same time // (otherwise in clone mode only one screen is available) // HACK // For now, simply exit with no changes if screenName is not an active output if (isValid() == true) { screenNumber = -1; randr_display = tqt_xdisplay(); randr_screen_info = read_screen_info(randr_display); if (randr_screen_info == NULL) { return ""; } j=0; for (i = 0; i < randr_screen_info->n_output; i++) { output_info = randr_screen_info->outputs[i]->info; // Look for ON outputs... if (!randr_screen_info->outputs[i]->cur_crtc) { continue; } // ...that are connected if (RR_Disconnected == randr_screen_info->outputs[i]->info->connection) { continue; } if (output_info->name == screenName) { screenNumber = j; } j++; } freeScreenInfoStructure(randr_screen_info); } if (screenNumber >= 0) { // Apply ICC settings with XCalib TQString icc_command; FILE *pipe_xcalib; char xcalib_result[2048]; int i; xcalib_result[0]=0; icc_command = TQString("xcalib -c"); if ((pipe_xcalib = popen(icc_command.ascii(), "r")) == NULL) { printf("Xcalib pipe error\n [xcalib clear]"); } else { if (fgets(xcalib_result, 2048, pipe_xcalib)) { pclose(pipe_xcalib); for (i=1;i<2048;i++) { if (xcalib_result[i] == 0) { xcalib_result[i-1]=0; i=2048; } } if (strlen(xcalib_result) > 2) { return xcalib_result; } } else { return ""; } } } } return ""; } TQString KRandrSimpleAPI::applyIccConfiguration(TQString profileName, TQString kde_confdir) { int i; Display *randr_display; ScreenInfo *randr_screen_info; XRROutputInfo *output_info; KSimpleConfig *t_config; int screenNumber = 0; TQString errorstr = ""; t_config = new KSimpleConfig( TQString::fromLatin1( "kiccconfigrc" )); // Find all screens if (isValid() == true) { randr_display = tqt_xdisplay(); randr_screen_info = read_screen_info(randr_display); if (randr_screen_info == NULL) { return ""; } for (i = 0; i < randr_screen_info->n_output; i++) { output_info = randr_screen_info->outputs[i]->info; errorstr = applyIccFile(output_info->name, getIccFileName(profileName, output_info->name, kde_confdir)); if (errorstr != "") { return errorstr; } } freeScreenInfoStructure(randr_screen_info); } else { return applyIccFile(getIccFileName(profileName, "Default", kde_confdir), "Default"); } t_config->writeEntry("CurrentProfile", profileName); t_config->sync(); delete t_config; return ""; } TQString KRandrSimpleAPI::getEDIDMonitorName(int card, TQString displayname) { TQString edid; TQByteArray binaryedid = getEDID(card, displayname); if (binaryedid.isNull()) return TQString(); // Get the manufacturer ID unsigned char letter_1 = ((binaryedid[8]>>2) & 0x1F) + 0x40; unsigned char letter_2 = (((binaryedid[8] & 0x03) << 3) | ((binaryedid[9]>>5) & 0x07)) + 0x40; unsigned char letter_3 = (binaryedid[9] & 0x1F) + 0x40; TQChar qletter_1 = TQChar(letter_1); TQChar qletter_2 = TQChar(letter_2); TQChar qletter_3 = TQChar(letter_3); TQString manufacturer_id = TQString("%1%2%3").arg(qletter_1).arg(qletter_2).arg(qletter_3); // Get the model ID unsigned int raw_model_id = (((binaryedid[10] << 8) | binaryedid[11]) << 16) & 0xFFFF0000; // Reverse the bit order unsigned int model_id = reverse_bits(raw_model_id); // Try to get the model name bool has_friendly_name = false; unsigned char descriptor_block[18]; int i; for (i=72;i<90;i++) { descriptor_block[i-72] = binaryedid[i] & 0xFF; } if ((descriptor_block[0] != 0) || (descriptor_block[1] != 0) || (descriptor_block[3] != 0xFC)) { for (i=90;i<108;i++) { descriptor_block[i-90] = binaryedid[i] & 0xFF; } if ((descriptor_block[0] != 0) || (descriptor_block[1] != 0) || (descriptor_block[3] != 0xFC)) { for (i=108;i<126;i++) { descriptor_block[i-108] = binaryedid[i] & 0xFF; } } } TQString monitor_name; if ((descriptor_block[0] == 0) && (descriptor_block[1] == 0) && (descriptor_block[3] == 0xFC)) { char* pos = strchr((char *)(descriptor_block+5), '\n'); if (pos) { *pos = 0; has_friendly_name = true; monitor_name = TQString((char *)(descriptor_block+5)); } else { has_friendly_name = false; } } // [FIXME] // Look up manudacturer names if possible! if (has_friendly_name) edid = TQString("%1 %2").arg(manufacturer_id).arg(monitor_name); else edid = TQString("%1 0x%2").arg(manufacturer_id).arg(model_id, 0, 16); return edid; } TQByteArray KRandrSimpleAPI::getEDID(int card, TQString displayname) { TQFile file(TQString("/sys/class/drm/card%1-%2/edid").arg(card).arg(displayname)); if (!file.open (IO_ReadOnly)) return TQByteArray(); TQByteArray binaryedid = file.readAll(); file.close(); return binaryedid; } TQString KRandrSimpleAPI::getCurrentProfile () { TQString profileName; KSimpleConfig *t_config; t_config = new KSimpleConfig( TQString::fromLatin1( "kiccconfigrc" )); profileName = t_config->readEntry("CurrentProfile"); delete t_config; return profileName; } TQString KRandrSimpleAPI::applySystemWideIccConfiguration(TQString kde_confdir) { // Apply ICC settings with XCalib TQString icc_command; FILE *pipe_xcalib; char xcalib_result[2048]; int i; xcalib_result[0]=0; icc_command = TQString("xcalib \"%1\"").arg(getIccFileName(NULL, "Default", kde_confdir)); if ((pipe_xcalib = popen(icc_command.ascii(), "r")) == NULL) { printf("Xcalib pipe error [xcalib apply]\n"); } else { if (fgets(xcalib_result, 2048, pipe_xcalib)) { pclose(pipe_xcalib); for (i=1;i<2048;i++) { if (xcalib_result[i] == 0) { xcalib_result[i-1]=0; i=2048; } } if (strlen(xcalib_result) > 2) { return xcalib_result; } } else { return ""; } } return ""; } TQStringList KRandrSimpleAPI::getDisplayConfigurationProfiles(TQString kde_confdir) { TQStringList ret; TQDir d(kde_confdir + "/displayconfig/"); d.setFilter(TQDir::Files); d.setSorting(TQDir::Name); const TQFileInfoList *list = d.entryInfoList(); if (list) { TQFileInfoListIterator it(*list); TQFileInfo *fi; while ((fi = it.current()) != 0) { if (fi->fileName() != "default") { ret.append(fi->fileName()); } ++it; } } return ret; } bool KRandrSimpleAPI::deleteDisplayConfiguration(TQString profilename, TQString kde_confdir) { TQString fileName = kde_confdir + "/displayconfig/"; fileName.append(profilename); return (!unlink(fileName.ascii())); } bool KRandrSimpleAPI::renameDisplayConfiguration(TQString profilename, TQString newprofilename, TQString kde_confdir) { TQString fileName = kde_confdir + "/displayconfig/"; TQString newFileName = fileName; fileName.append(profilename); newFileName.append(newprofilename); TQDir d(kde_confdir + "/displayconfig/"); return (d.rename(fileName, newFileName)); } void KRandrSimpleAPI::saveDisplayConfiguration(bool enable, bool applyonstart, TQString profilename, TQString defaultprofilename, TQString kde_confdir, TQPtrList screenInfoArray) { int i; TQString filename; filename = "displayglobals"; filename.prepend(kde_confdir.append("/")); KSimpleConfig* display_config = new KSimpleConfig( filename ); display_config->setGroup("General"); display_config->writeEntry("EnableDisplayControl", enable); display_config->writeEntry("ApplySettingsOnStart", applyonstart); display_config->writeEntry("StartupProfileName", defaultprofilename); display_config->sync(); delete display_config; filename = profilename; if (filename == "") { filename = "default"; } filename.prepend(kde_confdir.append("/displayconfig/")); display_config = new KSimpleConfig( filename ); i=0; SingleScreenData *screendata; for ( screendata=screenInfoArray.first(); screendata; screendata=screenInfoArray.next() ) { display_config->setGroup(TQString("SCREEN %1").arg(i)); display_config->writeEntry("ScreenUniqueName", screendata->screenUniqueName); display_config->writeEntry("ScreenFriendlyName", screendata->screenFriendlyName); display_config->writeEntry("GenericScreenDetected", screendata->generic_screen_detected); display_config->writeEntry("ScreenConnected", screendata->screen_connected); display_config->writeEntry("Resolutions", screendata->resolutions); display_config->writeEntry("RefreshRates", screendata->refresh_rates); display_config->writeEntry("ColorDepths", screendata->color_depths); display_config->writeEntry("AvailableRotations", screendata->rotations); display_config->writeEntry("CurrentResolution", screendata->current_resolution_index); display_config->writeEntry("CurrentRefreshRate", screendata->current_refresh_rate_index); display_config->writeEntry("CurrentColorDepth", screendata->current_color_depth_index); display_config->writeEntry("CurrentRotation", screendata->current_rotation_index); display_config->writeEntry("CurrentOrientiation", screendata->current_orientation_mask); display_config->writeEntry("GammaRed", screendata->gamma_red); display_config->writeEntry("GammaGreen", screendata->gamma_green); display_config->writeEntry("GammaBlue", screendata->gamma_blue); display_config->writeEntry("CurrentXFlip", screendata->has_x_flip); display_config->writeEntry("CurrentYFlip", screendata->has_y_flip); display_config->writeEntry("SupportsTransformation", screendata->supports_transformations); display_config->writeEntry("IsPrimary", screendata->is_primary); display_config->writeEntry("IsExtended", screendata->is_extended); display_config->writeEntry("AbsXPos", screendata->absolute_x_position); display_config->writeEntry("AbsYPos", screendata->absolute_y_position); display_config->writeEntry("CurrentXPixelCount", screendata->current_x_pixel_count); display_config->writeEntry("CurrentYPixelCount", screendata->current_y_pixel_count); display_config->writeEntry("HasDPMS", screendata->has_dpms); display_config->writeEntry("EnableDPMS", screendata->enable_dpms); display_config->writeEntry("DPMSStandbyDelay", screendata->dpms_standby_delay); display_config->writeEntry("DPMSSuspendDelay", screendata->dpms_suspend_delay); display_config->writeEntry("DPMSPowerDownDelay", screendata->dpms_off_delay); i++; } display_config->sync(); delete display_config; } TQPoint KRandrSimpleAPI::applyStartupDisplayConfiguration(TQString kde_confdir) { bool applyonstart = getDisplayConfigurationStartupAutoApplyEnabled(kde_confdir); if (applyonstart) { TQString profilename = getDisplayConfigurationStartupAutoApplyName(kde_confdir); return applyDisplayConfiguration(profilename, kde_confdir); } else { return TQPoint(); } } TQPoint KRandrSimpleAPI::applyDisplayConfiguration(TQString profilename, TQString kde_confdir) { TQPoint ret; bool enabled = getDisplayConfigurationEnabled(kde_confdir); if (profilename == "") { profilename = "default"; } if (enabled) { TQPtrList screenInfoArray; screenInfoArray = loadDisplayConfiguration(profilename, kde_confdir); if (screenInfoArray.count() > 0) { applyDisplayConfiguration(screenInfoArray, FALSE, kde_confdir); } destroyScreenInformationObject(screenInfoArray); screenInfoArray = readCurrentDisplayConfiguration(); ensureMonitorDataConsistency(screenInfoArray); ret = primaryScreenOffsetFromTLC(screenInfoArray); destroyScreenInformationObject(screenInfoArray); } return ret; } TQPtrList KRandrSimpleAPI::loadDisplayConfiguration(TQString profilename, TQString kde_confdir) { int i; TQString filename; filename = profilename; if (filename == "") { filename = "default"; } filename.prepend(kde_confdir.append("/displayconfig/")); KSimpleConfig* display_config = new KSimpleConfig( filename ); TQStringList grouplist = display_config->groupList(); SingleScreenData *screendata; TQPtrList screenInfoArray; for ( TQStringList::Iterator it = grouplist.begin(); it != grouplist.end(); ++it ) { if ((*it).startsWith("SCREEN ")) { display_config->setGroup(*it); i = ((*it).remove("SCREEN ")).toInt(); screendata = new SingleScreenData; screenInfoArray.append(screendata); screendata->screenUniqueName = display_config->readEntry("ScreenUniqueName"); screendata->screenFriendlyName = display_config->readEntry("ScreenFriendlyName"); screendata->generic_screen_detected = display_config->readBoolEntry("GenericScreenDetected"); screendata->screen_connected = display_config->readBoolEntry("ScreenConnected"); screendata->resolutions = display_config->readListEntry("Resolutions"); screendata->refresh_rates = display_config->readListEntry("RefreshRates"); screendata->color_depths = display_config->readListEntry("ColorDepths"); screendata->rotations = display_config->readListEntry("AvailableRotations"); screendata->current_resolution_index = display_config->readNumEntry("CurrentResolution"); screendata->current_refresh_rate_index = display_config->readNumEntry("CurrentRefreshRate"); screendata->current_color_depth_index = display_config->readNumEntry("CurrentColorDepth"); screendata->current_rotation_index = display_config->readNumEntry("CurrentRotation"); screendata->current_orientation_mask = display_config->readNumEntry("CurrentOrientiation"); screendata->gamma_red = display_config->readDoubleNumEntry("GammaRed"); screendata->gamma_green = display_config->readDoubleNumEntry("GammaGreen"); screendata->gamma_blue = display_config->readDoubleNumEntry("GammaBlue"); screendata->has_x_flip = display_config->readBoolEntry("CurrentXFlip"); screendata->has_y_flip = display_config->readBoolEntry("CurrentYFlip"); screendata->supports_transformations = display_config->readBoolEntry("SupportsTransformation"); screendata->is_primary = display_config->readBoolEntry("IsPrimary"); screendata->is_extended = display_config->readBoolEntry("IsExtended"); screendata->absolute_x_position = display_config->readNumEntry("AbsXPos"); screendata->absolute_y_position = display_config->readNumEntry("AbsYPos"); screendata->current_x_pixel_count = display_config->readNumEntry("CurrentXPixelCount"); screendata->current_y_pixel_count = display_config->readNumEntry("CurrentYPixelCount"); screendata->has_dpms = display_config->readBoolEntry("HasDPMS"); screendata->enable_dpms = display_config->readBoolEntry("EnableDPMS"); screendata->dpms_standby_delay = display_config->readNumEntry("DPMSStandbyDelay"); screendata->dpms_suspend_delay = display_config->readNumEntry("DPMSSuspendDelay"); screendata->dpms_off_delay = display_config->readNumEntry("DPMSPowerDownDelay"); } } delete display_config; return screenInfoArray; } int KRandrSimpleAPI::getHardwareRotationFlags(SingleScreenData* screendata) { int rotationFlags = 0; if (screendata->current_rotation_index == ROTATION_0_DEGREES_INDEX) { rotationFlags = rotationFlags | RandRScreen::Rotate0; } else if (screendata->current_rotation_index == ROTATION_90_DEGREES_INDEX) { rotationFlags = rotationFlags | RandRScreen::Rotate90; } else if (screendata->current_rotation_index == ROTATION_180_DEGREES_INDEX) { rotationFlags = rotationFlags | RandRScreen::Rotate180; } else if (screendata->current_rotation_index == ROTATION_270_DEGREES_INDEX) { rotationFlags = rotationFlags | RandRScreen::Rotate270; } if (screendata->has_x_flip) { rotationFlags = rotationFlags | RandRScreen::ReflectX; } if (screendata->has_y_flip) { rotationFlags = rotationFlags | RandRScreen::ReflectY; } return rotationFlags; } #define USE_XRANDR_PROGRAM bool KRandrSimpleAPI::applyDisplayConfiguration(TQPtrList screenInfoArray, bool test, TQString kde_confdir) { int i; int j; bool accepted = true; Display *randr_display; XRROutputInfo *output_info; ScreenInfo *randr_screen_info; SingleScreenData *screendata; TQPtrList oldconfig; if (test == TRUE) { oldconfig = readCurrentDisplayConfiguration(); } if (isValid() == true) { #ifdef USE_XRANDR_PROGRAM // Assemble the command string for xrandr TQString command; command = "xrandr"; randr_display = tqt_xdisplay(); randr_screen_info = read_screen_info(randr_display); for (i = 0; i < screenInfoArray.count(); i++) { screendata = screenInfoArray.at(i); if (screendata) { output_info = randr_screen_info->outputs[i]->info; command.append(" --output ").append(output_info->name); if (screendata->is_primary || screendata->is_extended) { command.append(TQString(" --mode %1x%2").arg(screendata->current_x_pixel_count).arg(screendata->current_y_pixel_count)); command.append(TQString(" --pos %1x%2").arg(screendata->absolute_x_position).arg(screendata->absolute_y_position)); command.append(TQString(" --refresh %1").arg(atoi((*screendata->refresh_rates.at(screendata->current_refresh_rate_index)).ascii()))); command.append(TQString(" --gamma %1:%2:%3").arg(screendata->gamma_red).arg(screendata->gamma_green).arg(screendata->gamma_blue)); if (screendata->current_rotation_index == ROTATION_0_DEGREES_INDEX) command.append(" --rotate ").append("normal"); if (screendata->current_rotation_index == ROTATION_90_DEGREES_INDEX) command.append(" --rotate ").append("left"); if (screendata->current_rotation_index == ROTATION_180_DEGREES_INDEX) command.append(" --rotate ").append("inverted"); if (screendata->current_rotation_index == ROTATION_270_DEGREES_INDEX) command.append(" --rotate ").append("right"); if ((screendata->has_x_flip == 0) && (screendata->has_y_flip == 0)) command.append(" --reflect ").append("normal"); if ((screendata->has_x_flip == 1) && (screendata->has_y_flip == 0)) command.append(" --reflect ").append("x"); if ((screendata->has_x_flip == 0) && (screendata->has_y_flip == 1)) command.append(" --reflect ").append("y"); if ((screendata->has_x_flip == 1) && (screendata->has_y_flip == 1)) command.append(" --reflect ").append("xy"); if (screendata->is_primary) { command.append(" --primary"); } } else { command.append(" --off"); } } else { printf("[WARNING] Unable to find configuration for monitor %d; settings may not be correctly applied...\n", i); fflush(stdout); } } freeScreenInfoStructure(randr_screen_info); TQString xrandr_command_output = exec(command.ascii()); xrandr_command_output = xrandr_command_output.stripWhiteSpace(); if (test) { // In case gamma settings is not supported, try again without '--gamma' parameter if (xrandr_command_output == "xrandr: Gamma size is 0.") { command = command.replace(TQRegExp("--gamma [0-9\\.]*:[0-9\\.]*:[0-9\\.]*"), ""); xrandr_command_output = exec(command.ascii()); xrandr_command_output = xrandr_command_output.stripWhiteSpace(); } if(xrandr_command_output.startsWith("xrandr: Failed to get size of gamma for output")) { KMessageBox::sorry(0, xrandr_command_output, i18n("Setting gamma failed.")); } else if (xrandr_command_output != "") { applyDisplayConfiguration(oldconfig, FALSE, kde_confdir); accepted = false; destroyScreenInformationObject(oldconfig); KMessageBox::sorry(0, xrandr_command_output, i18n("XRandR encountered a problem")); return accepted; } } #else randr_display = tqt_xdisplay(); randr_screen_info = read_screen_info(randr_display); // Turn off all displays for (i = 0; i < screenInfoArray.count(); i++) { screendata = screenInfoArray.at(i); output_info = randr_screen_info->outputs[i]->info; randr_screen_info->cur_crtc = randr_screen_info->outputs[i]->cur_crtc; randr_screen_info->cur_output = randr_screen_info->outputs[i]; randr_screen_info->cur_output->auto_set = 0; randr_screen_info->cur_output->off_set = 1; output_off (randr_screen_info, randr_screen_info->cur_output); j=main_low_apply(randr_screen_info); } freeScreenInfoStructure(randr_screen_info); randr_screen_info = read_screen_info(randr_display); // Turn on the primary display for (i = 0; i < screenInfoArray.count(); i++) { screendata = screenInfoArray.at(i); output_info = randr_screen_info->outputs[i]->info; if (screendata->is_primary == true) { randr_screen_info->cur_crtc = randr_screen_info->outputs[i]->cur_crtc; randr_screen_info->cur_output = randr_screen_info->outputs[i]; randr_screen_info->cur_output->auto_set = 1; randr_screen_info->cur_output->off_set = 0; output_auto (randr_screen_info, randr_screen_info->cur_output); j=main_low_apply(randr_screen_info); } } freeScreenInfoStructure(randr_screen_info); // Handle the remaining displays randr_screen_info = read_screen_info(randr_display); for (i = 0; i < screenInfoArray.count(); i++) { screendata = screenInfoArray.at(i); output_info = randr_screen_info->outputs[i]->info; // Activate or deactivate the screens as necessary randr_screen_info->cur_crtc = randr_screen_info->outputs[i]->cur_crtc; randr_screen_info->cur_output = randr_screen_info->outputs[i]; if (screendata->is_primary == false) { if (screendata->is_primary || screendata->is_extended) { randr_screen_info->cur_output->auto_set = 1; randr_screen_info->cur_output->off_set = 0; output_auto (randr_screen_info, randr_screen_info->cur_output); j=main_low_apply(randr_screen_info); } else { randr_screen_info->cur_output->auto_set = 0; randr_screen_info->cur_output->off_set = 1; output_off (randr_screen_info, randr_screen_info->cur_output); j=main_low_apply(randr_screen_info); } } } freeScreenInfoStructure(randr_screen_info); randr_screen_info = read_screen_info(randr_display); for (i = 0; i < screenInfoArray.count(); i++) { screendata = screenInfoArray.at(i); output_info = randr_screen_info->outputs[i]->info; if (screendata->is_primary || screendata->is_extended) { // Set rotation, refresh rate, and size RandRScreen *cur_screen = new RandRScreen(i); cur_screen->proposeSize(screendata->current_resolution_index); cur_screen->proposeRefreshRate(screendata->current_refresh_rate_index); cur_screen->proposeRotation(getHardwareRotationFlags(screendata)); cur_screen->applyProposed(); delete cur_screen; // Force data reload randr_screen_info = read_screen_info(randr_display); output_info = randr_screen_info->outputs[i]->info; // Finally, set the screen's position randr_screen_info->cur_crtc = randr_screen_info->outputs[i]->cur_crtc; if (randr_screen_info->cur_crtc) { randr_screen_info->cur_crtc->cur_x = screendata->absolute_x_position; randr_screen_info->cur_crtc->cur_y = screendata->absolute_y_position; j=main_low_apply(randr_screen_info); } } } freeScreenInfoStructure(randr_screen_info); #endif } applyDisplayGamma(screenInfoArray); applyDisplayDPMS(screenInfoArray); TQString current_icc_profile = getCurrentProfile(); applySystemWideIccConfiguration(kde_confdir); applyIccConfiguration(current_icc_profile, kde_confdir); if (test == TRUE) { int ret = showTestConfigurationDialog(); if (!ret) { applyDisplayConfiguration(oldconfig, FALSE, kde_confdir); accepted = false; } destroyScreenInformationObject(oldconfig); } return accepted; } TQPtrList KRandrSimpleAPI::copyScreenInformationObject(TQPtrList screenInfoArray) { SingleScreenData *origscreendata; SingleScreenData *copyscreendata; TQPtrList retArray; for ( origscreendata = screenInfoArray.first(); origscreendata; origscreendata = screenInfoArray.next() ) { copyscreendata = new SingleScreenData; *copyscreendata = *origscreendata; retArray.append(copyscreendata); } return retArray; } void KRandrSimpleAPI::destroyScreenInformationObject(TQPtrList screenInfoArray) { SingleScreenData *screendata; for ( screendata = screenInfoArray.first(); screendata; screendata = screenInfoArray.next() ) { screenInfoArray.remove(screendata); delete screendata; } } void KRandrSimpleAPI::ensureMonitorDataConsistency(TQPtrList screenInfoArray) { int i; SingleScreenData *screendata; int numberOfScreens = screenInfoArray.count(); for (i=0;iscreen_connected) { screendata->is_primary = false; screendata->is_extended = false; } } bool has_primary_monitor = false; for (i=0;iis_primary) { has_primary_monitor = true; } } if (!has_primary_monitor) { for (i=0;iscreen_connected && screendata->is_extended) { screendata->is_primary = true; screendata->is_extended = true; has_primary_monitor = true; } } } } if (!has_primary_monitor) { for (i=0;iscreen_connected) { screendata->is_primary = true; screendata->is_extended = true; has_primary_monitor = true; } } } } bool found_first_primary_monitor = false; for (i=0;iis_primary) { if (!found_first_primary_monitor) { found_first_primary_monitor = true; } else { screendata->is_primary = false; } } } for (i=0;iis_primary) { screendata->is_extended = true; } } for (i=0;iresolutions[screendata->current_resolution_index]; int separator_pos = resolutionstring.find(" x "); TQString x_res_string = resolutionstring.left(separator_pos); TQString y_res_string = resolutionstring.right(resolutionstring.length()-separator_pos-3); screendata->current_x_pixel_count = x_res_string.toInt(); screendata->current_y_pixel_count = y_res_string.toInt(); screendata->current_orientation_mask = getHardwareRotationFlags(screendata); } // Each screen's absolute position is given relative to the primary monitor // Fix up the absolute positions int primary_offset_x = 0; int primary_offset_y = 0; for (i=0;iis_primary) { primary_offset_x = screendata->absolute_x_position; primary_offset_y = screendata->absolute_y_position; primary_offset_x = primary_offset_x * (-1); primary_offset_y = primary_offset_y * (-1); } } for (i=0;iabsolute_x_position = screendata->absolute_x_position + primary_offset_x; screendata->absolute_y_position = screendata->absolute_y_position + primary_offset_y; } } TQPoint KRandrSimpleAPI::primaryScreenOffsetFromTLC(TQPtrList screenInfoArray) { int i; SingleScreenData *screendata; int numberOfScreens = screenInfoArray.count(); int primary_offset_x = 0; int primary_offset_y = 0; for (i=0;iabsolute_x_position < primary_offset_x) { primary_offset_x = screendata->absolute_x_position; } if (screendata->absolute_y_position < primary_offset_y) { primary_offset_y = screendata->absolute_y_position; } } primary_offset_x = primary_offset_x * (-1); primary_offset_y = primary_offset_y * (-1); return TQPoint(primary_offset_x, primary_offset_y); } HotPlugRulesList KRandrSimpleAPI::getHotplugRules(TQString kde_confdir) { int i; TQString filename; HotPlugRulesList ret; filename = "displayglobals"; filename.prepend(kde_confdir.append("/")); KSimpleConfig* display_config = new KSimpleConfig( filename ); TQStringList grouplist = display_config->groupList(); for ( TQStringList::Iterator it = grouplist.begin(); it != grouplist.end(); ++it ) { if (!(*it).startsWith("Hotplug-Rule")) { continue; } HotPlugRule rule; display_config->setGroup(*it); rule.outputs = display_config->readListEntry("Outputs"); rule.states = display_config->readIntListEntry("States"); rule.profileName = display_config->readEntry("Profile"); ret.append(rule); } delete display_config; return ret; } void KRandrSimpleAPI::saveHotplugRules(HotPlugRulesList rules, TQString kde_confdir) { int i; TQString filename; filename = "displayglobals"; filename.prepend(kde_confdir.append("/")); KSimpleConfig* display_config = new KSimpleConfig( filename ); TQStringList grouplist = display_config->groupList(); for ( TQStringList::Iterator it = grouplist.begin(); it != grouplist.end(); ++it ) { if (!(*it).startsWith("Hotplug-Rule")) { continue; } display_config->deleteGroup(*it, true, false); } HotPlugRulesList::Iterator it; i=0; for (it=rules.begin(); it != rules.end(); ++it) { display_config->setGroup(TQString("Hotplug-Rule%1").arg(i)); display_config->writeEntry("Outputs", (*it).outputs); display_config->writeEntry("States", (*it).states); display_config->writeEntry("Profile", (*it).profileName); i++; } display_config->sync(); delete display_config; } bool KRandrSimpleAPI::getDisplayConfigurationEnabled(TQString kde_confdir) { TQString filename = "displayglobals"; filename.prepend(kde_confdir.append("/")); KSimpleConfig* display_config = new KSimpleConfig( filename ); display_config->setGroup("General"); bool enabled = display_config->readBoolEntry("EnableDisplayControl", false); delete display_config; return enabled; } bool KRandrSimpleAPI::getDisplayConfigurationStartupAutoApplyEnabled(TQString kde_confdir) { TQString filename = "displayglobals"; filename.prepend(kde_confdir.append("/")); KSimpleConfig* display_config = new KSimpleConfig( filename ); display_config->setGroup("General"); bool applyonstart = display_config->readBoolEntry("ApplySettingsOnStart", false); delete display_config; return applyonstart; } TQString KRandrSimpleAPI::getDisplayConfigurationStartupAutoApplyName(TQString kde_confdir) { TQString filename = "displayglobals"; filename.prepend(kde_confdir.append("/")); KSimpleConfig* display_config = new KSimpleConfig( filename ); display_config->setGroup("General"); TQString profilename = display_config->readEntry("StartupProfileName", ""); delete display_config; return profilename; } void KRandrSimpleAPI::applyHotplugRules(TQString kde_confdir) { bool enabled = getDisplayConfigurationEnabled(kde_confdir); if (!enabled) { return; } HotPlugRulesList rules = getHotplugRules(kde_confdir); TQPtrList screenInfoArray = readCurrentDisplayConfiguration(); int i; int j; TQString bestRule; int bestRuleMatchCount = 0; SingleScreenData *screendata = NULL; HotPlugRulesList::Iterator it; for (it=rules.begin(); it != rules.end(); ++it) { // Compare each rule against the current display configuration // It an output matches the state given in the rule, increment matchCount HotPlugRule rule = *it; int matchCount = 0; int numberOfScreens = screenInfoArray.count(); for (i=0;iscreenUniqueName) { continue; } if ((*it).states[j] == HotPlugRule::Connected) { if (screendata->screen_connected) { matchCount++; } } else if ((*it).states[j] == HotPlugRule::Disconnected) { if (!screendata->screen_connected) { matchCount++; } } } } if (matchCount > bestRuleMatchCount) { bestRuleMatchCount = matchCount; bestRule = rule.profileName; } } destroyScreenInformationObject(screenInfoArray); if (bestRuleMatchCount > 0) { // At least one rule matched... // Apply the profile name in bestRule to the display hardware applyDisplayConfiguration(bestRule, kde_confdir); } } void KRandrSimpleAPI::applyDisplayGamma(TQPtrList screenInfoArray) { Display *randr_display; XRROutputInfo *output_info; ScreenInfo *randr_screen_info; XRRCrtcGamma *gamma; SingleScreenData *screendata; if (isValid() == true) { randr_display = tqt_xdisplay(); randr_screen_info = read_screen_info(randr_display); for (int i = 0; i < screenInfoArray.count(); i++) { screendata = screenInfoArray.at(i); output_info = randr_screen_info->outputs[i]->info; CrtcInfo *current_crtc = randr_screen_info->outputs[i]->cur_crtc; if (!current_crtc) { continue; } // vvvvvvvvv This chunk of code is based on code from the function set_gamma() of xrandr vvvvvvvvvv int size = XRRGetCrtcGammaSize(randr_display, current_crtc->id); if (size <= 0 || size > 65536) { kdWarning() << "Gamma correction table has wrong size." << endl; continue; } gamma = XRRAllocGamma(size); if (!gamma) { kdWarning() << "Gamma allocation failed." << endl; continue; } for (int j = 0; j < size; j++) { if (size == 1) { gamma->red[j] = 0.0; gamma->green[j] = 0.0; gamma->blue[j] = 0.0; } else { gamma->red[j] = fmin(pow((double)j / (double)(size - 1), screendata->gamma_red), 1.0) * 65535.0; gamma->green[j] = fmin(pow((double)j / (double)(size - 1), screendata->gamma_green), 1.0) * 65535.0; gamma->blue[j] = fmin(pow((double)j / (double)(size - 1), screendata->gamma_blue), 1.0) * 65535.0; } } XRRSetCrtcGamma(randr_display, current_crtc->id, gamma); free(gamma); // ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ } freeScreenInfoStructure(randr_screen_info); } } void KRandrSimpleAPI::applyDisplayDPMS(TQPtrList screenInfoArray) { int i; Display *randr_display; XRROutputInfo *output_info; ScreenInfo *randr_screen_info; XRRCrtcGamma *gamma; SingleScreenData *screendata; if (isValid() == true) { randr_display = tqt_xdisplay(); randr_screen_info = read_screen_info(randr_display); for (i = 0; i < screenInfoArray.count(); i++) { screendata = screenInfoArray.at(i); output_info = randr_screen_info->outputs[i]->info; CrtcInfo *current_crtc = randr_screen_info->outputs[i]->cur_crtc; if (!current_crtc) { continue; } if (!screendata->has_dpms) { continue; } if (screendata->enable_dpms) { DPMSSetTimeouts(randr_display, screendata->dpms_standby_delay, screendata->dpms_suspend_delay, screendata->dpms_off_delay); DPMSEnable(randr_display); } else { DPMSDisable(randr_display); } } freeScreenInfoStructure(randr_screen_info); } } void KRandrSimpleAPI::freeScreenInfoStructure(ScreenInfo* screen_info) { int i; for (i=0; in_crtc; i++) { free(screen_info->crtcs[i]); } for (i=0; in_output; i++) { free(screen_info->outputs[i]); } free(screen_info->outputs); free(screen_info->crtcs); free(screen_info); } TQPtrList KRandrSimpleAPI::readCurrentDisplayConfiguration() { // Discover display information int i; int j; XRROutputInfo *output_info; SingleScreenData *screendata; TQPtrList screenInfoArray; Display *randr_display; ScreenInfo *randr_screen_info; // Clear existing info destroyScreenInformationObject(screenInfoArray); int numberOfScreens = 0; if (isValid() == true) { randr_display = tqt_xdisplay(); randr_screen_info = read_screen_info(randr_display); for (i = 0; i < randr_screen_info->n_output; i++) { output_info = randr_screen_info->outputs[i]->info; CrtcInfo *current_crtc = randr_screen_info->outputs[i]->cur_crtc; // Create new data object screendata = new SingleScreenData; screenInfoArray.append(screendata); screendata->screenUniqueName = TQString(i18n("%1:%2")).arg(":0").arg(capitalizeString(output_info->name)); // [FIXME] How can I get the name of the Xorg graphics driver currently in use? screendata->screenFriendlyName = TQString(i18n("%1. %2 output on %3")).arg(i+1).arg(capitalizeString(output_info->name)).arg(":0"); // [FIXME] How can I get the name of the Xorg graphics driver currently in use? screendata->generic_screen_detected = false; // Attempt to use KMS to find screen EDID and name TQString edid = getEDIDMonitorName(0, output_info->name); // [FIXME] Don't hardwire to card 0! if (!edid.isNull()) { screendata->screenFriendlyName = TQString(i18n("%1. %2 on %3 on card %4")).arg(i+1).arg(edid).arg(capitalizeString(output_info->name)).arg("0"); // [FIXME] How can I get the name of the Xorg graphics driver currently in use? } // Get resolutions bool screen_active; RandRScreen *cur_screen = 0; if (RR_Disconnected == randr_screen_info->outputs[i]->info->connection) { // Output DISCONNECTED screen_active = false; } else { if (randr_screen_info->outputs[i]->cur_crtc) { // Output CONNECTED and ON screen_active = true; cur_screen = new RandRScreen(i); } else { // Output CONNECTED and OFF screen_active = false; cur_screen = new RandRScreen(i); } } // Get DPMS information screendata->has_dpms = 1; // [FIXME] Master Xorg check for global DPMS support should go here if possible if (screendata->has_dpms) { CARD16 dpms_standby_delay; CARD16 dpms_suspend_delay; CARD16 dpms_off_delay; screendata->has_dpms = DPMSGetTimeouts(randr_display, &dpms_standby_delay, &dpms_suspend_delay, &dpms_off_delay); screendata->dpms_standby_delay = dpms_standby_delay; screendata->dpms_suspend_delay = dpms_suspend_delay; screendata->dpms_off_delay = dpms_off_delay; if (screendata->has_dpms) { CARD16 power_level; BOOL enable_dpms; screendata->has_dpms = DPMSInfo(randr_display, &power_level, &enable_dpms); screendata->enable_dpms = enable_dpms; } } if (!screendata->has_dpms) { screendata->enable_dpms = false; screendata->dpms_standby_delay = 0; screendata->dpms_suspend_delay = 0; screendata->dpms_off_delay = 0; } if (cur_screen) { screendata->screen_connected = true; for (int j = 0; j < cur_screen->numSizes(); j++) { screendata->resolutions.append(i18n("%1 x %2").arg(cur_screen->pixelSize(j).width()).arg(cur_screen->pixelSize(j).height())); } screendata->current_resolution_index = 0; if (current_crtc) { screendata->current_resolution_index = screendata->resolutions.findIndex(i18n("%1 x %2").arg(current_crtc->info->width).arg(current_crtc->info->height)); } if (screendata->current_resolution_index < 0) { screendata->current_resolution_index = cur_screen->proposedSize(); } // Get refresh rates TQStringList rr = cur_screen->refreshRates(screendata->current_resolution_index); for (TQStringList::Iterator it = rr.begin(); it != rr.end(); ++it) { screendata->refresh_rates.append(*it); } screendata->current_refresh_rate_index = cur_screen->proposedRefreshRate(); // Get color depths // [FIXME] screendata->color_depths.append(i18n("Default")); screendata->current_color_depth_index = 0; // Get orientation flags // RandRScreen::Rotate0 // RandRScreen::Rotate90 // RandRScreen::Rotate180 // RandRScreen::Rotate270 // RandRScreen::ReflectX // RandRScreen::ReflectY screendata->rotations.append(i18n("0 degrees")); screendata->rotations.append(i18n("90 degrees")); screendata->rotations.append(i18n("180 degrees")); screendata->rotations.append(i18n("270 degrees")); screendata->supports_transformations = (cur_screen->rotations() != RandRScreen::Rotate0); if (screendata->supports_transformations) { screendata->current_orientation_mask = cur_screen->proposedRotation(); switch (screendata->current_orientation_mask & RandRScreen::RotateMask) { case RandRScreen::Rotate0: screendata->current_rotation_index = ROTATION_0_DEGREES_INDEX; break; case RandRScreen::Rotate90: screendata->current_rotation_index = ROTATION_90_DEGREES_INDEX; break; case RandRScreen::Rotate180: screendata->current_rotation_index = ROTATION_180_DEGREES_INDEX; break; case RandRScreen::Rotate270: screendata->current_rotation_index = ROTATION_270_DEGREES_INDEX; break; default: // Shouldn't hit this one Q_ASSERT(screendata->current_orientation_mask & RandRScreen::RotateMask); screendata->current_rotation_index = ROTATION_0_DEGREES_INDEX; break; } screendata->has_x_flip = (screendata->current_orientation_mask & RandRScreen::ReflectX); screendata->has_y_flip = (screendata->current_orientation_mask & RandRScreen::ReflectY); } else { screendata->has_x_flip = false; screendata->has_y_flip = false; screendata->current_rotation_index = ROTATION_0_DEGREES_INDEX; } // Determine if this display is primary and/or extended RROutput primaryoutput = XRRGetOutputPrimary(tqt_xdisplay(), DefaultRootWindow(tqt_xdisplay())); if (primaryoutput == randr_screen_info->outputs[i]->id) { screendata->is_primary = false; } else { screendata->is_primary = true; } screendata->is_extended = screen_active; if (!screendata->is_extended) { screendata->is_primary = false; } // Get this screen's absolute position screendata->absolute_x_position = 0; screendata->absolute_y_position = 0; if (current_crtc) { screendata->absolute_x_position = current_crtc->info->x; screendata->absolute_y_position = current_crtc->info->y; } // Get this screen's current resolution screendata->current_x_pixel_count = cur_screen->pixelSize(screendata->current_resolution_index).width(); screendata->current_y_pixel_count = cur_screen->pixelSize(screendata->current_resolution_index).height(); // Get this screen's current gamma values // [FIXME] // This attempts to guess a gamma value based on the LUT settings at 50% // It may not always be 100% correct, or even anywhere close... // Essentially it "undoes" the LUT gamma calculation from xrandr // lut_gamma->green[i] = (pow(i/(size - 1), desired_gamma.green) * (size - 1) * 256); screendata->gamma_red = 2.2; screendata->gamma_green = 2.2; screendata->gamma_blue = 2.2; if (current_crtc) { //int slot = 127; int slot = 7; int size = XRRGetCrtcGammaSize(randr_display, current_crtc->id); XRRCrtcGamma *gammastruct = XRRGetCrtcGamma (randr_display, current_crtc->id); if (size == 1) { screendata->gamma_red = 0.0; screendata->gamma_green = 0.0; screendata->gamma_blue = 0.0; } else if (size > 1) { screendata->gamma_red = log(gammastruct->red[slot]/((size-1.0)*256.0))/log(slot/(size-1.0)); screendata->gamma_green = log(gammastruct->green[slot]/((size-1.0)*256.0))/log(slot/(size-1.0)); screendata->gamma_blue = log(gammastruct->blue[slot]/((size-1.0)*256.0))/log(slot/(size-1.0)); } } // Round off the gamma to one decimal place screendata->gamma_red = floorf(screendata->gamma_red * 10 + 0.5) / 10; screendata->gamma_green = floorf(screendata->gamma_green * 10 + 0.5) / 10; screendata->gamma_blue = floorf(screendata->gamma_blue * 10 + 0.5) / 10; delete cur_screen; } else { // Fill in generic data for this disconnected output screendata->screenFriendlyName = screendata->screenFriendlyName + TQString(" (") + i18n("disconnected") + TQString(")"); screendata->screen_connected = false; screendata->resolutions = i18n("Default"); screendata->refresh_rates = i18n("Default"); screendata->color_depths = i18n("Default"); screendata->rotations = i18n("N/A"); screendata->current_resolution_index = 0; screendata->current_refresh_rate_index = 0; screendata->current_color_depth_index = 0; screendata->gamma_red = 2.2; screendata->gamma_green = 2.2; screendata->gamma_blue = 2.2; screendata->current_rotation_index = ROTATION_0_DEGREES_INDEX; screendata->current_orientation_mask = 0; screendata->has_x_flip = false; screendata->has_y_flip = false; screendata->supports_transformations = false; screendata->is_primary = false; screendata->is_extended = false; screendata->absolute_x_position = 0; screendata->absolute_y_position = 0; screendata->current_x_pixel_count = 640; screendata->current_y_pixel_count = 480; } // Check for more screens... numberOfScreens++; } freeScreenInfoStructure(randr_screen_info); } else { screendata = new SingleScreenData; screenInfoArray.append(screendata); // Fill in a bunch of generic data screendata->screenFriendlyName = i18n("Default output on generic video card"); screendata->generic_screen_detected = true; screendata->screen_connected = true; screendata->resolutions = i18n("Default"); screendata->refresh_rates = i18n("Default"); screendata->color_depths = i18n("Default"); screendata->rotations = i18n("N/A"); screendata->current_resolution_index = 0; screendata->current_refresh_rate_index = 0; screendata->current_color_depth_index = 0; screendata->gamma_red = 2.2; screendata->gamma_green = 2.2; screendata->gamma_blue = 2.2; screendata->current_rotation_index = ROTATION_0_DEGREES_INDEX; screendata->current_orientation_mask = 0; screendata->has_x_flip = false; screendata->has_y_flip = false; screendata->supports_transformations = false; screendata->is_primary = true; screendata->is_extended = true; screendata->absolute_x_position = 0; screendata->absolute_y_position = 0; screendata->current_x_pixel_count = 640; screendata->current_y_pixel_count = 480; numberOfScreens++; } bool primary_set = false; for ( screendata=screenInfoArray.first(); screendata; screendata=screenInfoArray.next() ) { if (screendata->is_primary) { primary_set = true; break; } } // If there is no primary monitor set, xrandr is probably not functioning correctly! Q_ASSERT(primary_set); if (!primary_set) { // [FIXME] // Set this on the real primary monitor only! screendata = screenInfoArray.at(0); screendata->is_primary = true; } return screenInfoArray; } TQString KRandrSimpleAPI::clearIccConfiguration() { // Clear ICC settings with XCalib TQString icc_command; FILE *pipe_xcalib; char xcalib_result[2048]; int i; xcalib_result[0]=0; icc_command = TQString("xcalib -c"); if ((pipe_xcalib = popen(icc_command.ascii(), "r")) == NULL) { printf("Xcalib pipe error [xcalib clear]\n"); } else { if (fgets(xcalib_result, 2048, pipe_xcalib)) { pclose(pipe_xcalib); for (i=1;i<2048;i++) { if (xcalib_result[i] == 0) { xcalib_result[i-1]=0; i=2048; } } if (strlen(xcalib_result) > 2) { return xcalib_result; } } else { return ""; } } return ""; } ScreenInfo* KRandrSimpleAPI::read_screen_info (Display *display) { return internal_read_screen_info(display); } int KRandrSimpleAPI::set_screen_size (ScreenInfo *screen_info) { return internal_set_screen_size(screen_info); } void KRandrSimpleAPI::output_auto (ScreenInfo *screen_info, OutputInfo *output_info) { internal_output_auto (screen_info, output_info); } void KRandrSimpleAPI::output_off(ScreenInfo *screen_info, OutputInfo *output) { internal_output_off(screen_info, output); } CrtcInfo* KRandrSimpleAPI::auto_find_crtc (ScreenInfo *screen_info, OutputInfo *output_info) { return internal_auto_find_crtc (screen_info, output_info); } XRRModeInfo *KRandrSimpleAPI::find_mode_by_xid (ScreenInfo *screen_info, RRMode mode_id) { return internal_find_mode_by_xid (screen_info, mode_id); } int KRandrSimpleAPI::mode_height (XRRModeInfo *mode_info, Rotation rotation) { return internal_mode_height (mode_info, rotation); } int KRandrSimpleAPI::mode_width (XRRModeInfo *mode_info, Rotation rotation) { return internal_mode_width (mode_info, rotation); } int KRandrSimpleAPI::get_width_by_output_id (ScreenInfo *screen_info, RROutput output_id) { return internal_get_width_by_output_id (screen_info, output_id); } int KRandrSimpleAPI::get_height_by_output_id (ScreenInfo *screen_info, RROutput output_id) { return internal_get_height_by_output_id (screen_info, output_id); } char *KRandrSimpleAPI::get_output_name (ScreenInfo *screen_info, RROutput id) { return internal_get_output_name (screen_info, id); } Status KRandrSimpleAPI::crtc_apply (CrtcInfo *crtc_info) { return internal_crtc_apply (crtc_info); } Status KRandrSimpleAPI::crtc_disable (CrtcInfo *crtc) { return internal_crtc_disable (crtc); } int KRandrSimpleAPI::main_low_apply (ScreenInfo *screen_info) { return internal_main_low_apply (screen_info); } void KRandrSimpleAPI::set_primary_output (ScreenInfo *screen_info, RROutput output_id) { internal_output_set_primary(screen_info, output_id); } bool KRandrSimpleAPI::kRandrHasRandr(void) { return isValid(); } const char *KRandrSimpleAPI::kRandrVersion(void) { return "0.9.5"; } const char *KRandrSimpleAPI::kRandrCopyright(void) { return "LibKRandr 0.9.5 (C)2010 Timothy Pearson . U.S.A."; } /* * * * * * Under this line (------) there's only a C wrapper for the KRandrSimpleAPI class * * * * * */ const char *kRandrVersion(void) { return KRandrSimpleAPI::kRandrVersion(); } const char *kRandrCopyright(void) { return KRandrSimpleAPI::kRandrCopyright(); }