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00018 #include <limits.h>
00019
00020 #include <kglobalsettings.h>
00021 #include <kconfig.h>
00022 #include <kglobal.h>
00023 #include <kdebug.h>
00024 #include <config.h>
00025
00026 #include LCMS_HEADER
00027
00028 #include "kis_global.h"
00029 #include "kis_config.h"
00030
00031 namespace {
00032 const double IMG_DEFAULT_RESOLUTION = 100.0;
00033 const Q_INT32 IMG_DEFAULT_WIDTH = 512;
00034 const Q_INT32 IMG_DEFAULT_HEIGHT = 512;
00035 const enumCursorStyle DEFAULT_CURSOR_STYLE = CURSOR_STYLE_OUTLINE;
00036 const Q_INT32 DEFAULT_MAX_THREADS = 4;
00037 const Q_INT32 DEFAULT_MAX_TILES_MEM = 500;
00038 const Q_INT32 DEFAULT_SWAPPINESS = 100;
00039 const Q_INT32 DEFAULT_PRESSURE_CORRECTION = 50;
00040 const Q_INT32 DEFAULT_DOCKABILITY = 0;
00041 const Q_INT32 DEFAULT_UNDO_LIMIT = 50;
00042 }
00043
00044 KisConfig::KisConfig()
00045 {
00046
00047 m_cfg = KGlobal::config();
00048 if (!m_cfg) {
00049
00050
00051 m_cfg = new KConfig();
00052 }
00053 m_cfg->setGroup("");
00054 }
00055
00056 KisConfig::~KisConfig()
00057 {
00058 m_cfg->sync();
00059 }
00060
00061
00062 bool KisConfig::fixDockerWidth() const
00063 {
00064 return m_cfg->readBoolEntry("fixDockerWidth", true);
00065 }
00066
00067 void KisConfig::setFixedDockerWidth(bool fix)
00068 {
00069 m_cfg->writeEntry("fixDockerWidth", fix);
00070 }
00071
00072 bool KisConfig::undoEnabled() const
00073 {
00074 return m_cfg->readBoolEntry("undoEnabled", true);
00075 }
00076
00077 void KisConfig::setUndoEnabled(bool undo)
00078 {
00079 m_cfg->writeEntry("undoEnabled", undo);
00080 }
00081
00082
00083 Q_INT32 KisConfig::defUndoLimit() const
00084 {
00085 return m_cfg->readNumEntry("undolimit", DEFAULT_UNDO_LIMIT);
00086 }
00087
00088 void KisConfig::defUndoLimit(Q_INT32 limit)
00089 {
00090 m_cfg->writeEntry("undolimit", limit);
00091 }
00092
00093 Q_INT32 KisConfig::defImgWidth() const
00094 {
00095 return m_cfg->readNumEntry("imgWidthDef", IMG_DEFAULT_WIDTH);
00096 }
00097
00098 Q_INT32 KisConfig::defImgHeight() const
00099 {
00100 return m_cfg->readNumEntry("imgHeightDef", IMG_DEFAULT_HEIGHT);
00101 }
00102
00103 double KisConfig::defImgResolution() const
00104 {
00105 return m_cfg->readDoubleNumEntry("imgResolutionDef", IMG_DEFAULT_RESOLUTION);
00106 }
00107
00108 void KisConfig::defImgWidth(Q_INT32 width)
00109 {
00110 m_cfg->writeEntry("imgWidthDef", width);
00111 }
00112
00113 void KisConfig::defImgHeight(Q_INT32 height)
00114 {
00115 m_cfg->writeEntry("imgHeightDef", height);
00116 }
00117
00118 void KisConfig::defImgResolution(double res)
00119 {
00120 m_cfg->writeEntry("imgResolutionDef", res);
00121 }
00122
00123 enumCursorStyle KisConfig::cursorStyle() const
00124 {
00125 return (enumCursorStyle) m_cfg->readNumEntry("cursorStyleDef", DEFAULT_CURSOR_STYLE);
00126 }
00127
00128 enumCursorStyle KisConfig::getDefaultCursorStyle() const
00129 {
00130 return DEFAULT_CURSOR_STYLE;
00131 }
00132
00133 void KisConfig::setCursorStyle(enumCursorStyle style)
00134 {
00135 m_cfg->writeEntry("cursorStyleDef", style);
00136 }
00137
00138
00139 QString KisConfig::monitorProfile() const
00140 {
00141 return m_cfg->readEntry("monitorProfile", "");
00142 }
00143
00144 void KisConfig::setMonitorProfile(QString monitorProfile)
00145 {
00146 m_cfg->writeEntry("monitorProfile", monitorProfile);
00147 }
00148
00149
00150 QString KisConfig::workingColorSpace() const
00151 {
00152 return m_cfg->readEntry("workingColorSpace", "RGBA");
00153 }
00154
00155 void KisConfig::setWorkingColorSpace(QString workingColorSpace)
00156 {
00157 m_cfg->writeEntry(workingColorSpace, workingColorSpace);
00158 }
00159
00160
00161 QString KisConfig::printerColorSpace() const
00162 {
00163 return m_cfg->readEntry("printerColorSpace", "CMYK");
00164 }
00165
00166 void KisConfig::setPrinterColorSpace(QString printerColorSpace)
00167 {
00168 m_cfg->writeEntry("printerColorSpace", printerColorSpace);
00169 }
00170
00171
00172 QString KisConfig::printerProfile() const
00173 {
00174 return m_cfg->readEntry("printerProfile", "");
00175 }
00176
00177 void KisConfig::setPrinterProfile(QString printerProfile)
00178 {
00179 m_cfg->writeEntry("printerProfile", printerProfile);
00180 }
00181
00182
00183 bool KisConfig::useBlackPointCompensation() const
00184 {
00185 return m_cfg->readBoolEntry("useBlackPointCompensation", false);
00186 }
00187
00188 void KisConfig::setUseBlackPointCompensation(bool useBlackPointCompensation)
00189 {
00190 m_cfg->writeEntry("useBlackPointCompensation", useBlackPointCompensation);
00191 }
00192
00193
00194 bool KisConfig::showRulers() const
00195 {
00196 return m_cfg->readBoolEntry("showrulers", false);
00197 }
00198
00199 void KisConfig::setShowRulers(bool rulers)
00200 {
00201 m_cfg->writeEntry("showrulers", rulers);
00202 }
00203
00204
00205 Q_INT32 KisConfig::pasteBehaviour() const
00206 {
00207 return m_cfg->readNumEntry("pasteBehaviour", 2);
00208 }
00209
00210 void KisConfig::setPasteBehaviour(Q_INT32 renderIntent)
00211 {
00212 m_cfg->writeEntry("pasteBehaviour", renderIntent);
00213 }
00214
00215
00216 Q_INT32 KisConfig::renderIntent() const
00217 {
00218 return m_cfg->readNumEntry("renderIntent", INTENT_PERCEPTUAL);
00219 }
00220
00221 void KisConfig::setRenderIntent(Q_INT32 renderIntent)
00222 {
00223 m_cfg->writeEntry("renderIntent", renderIntent);
00224 }
00225
00226 bool KisConfig::useOpenGL() const
00227 {
00228 return m_cfg->readBoolEntry("useOpenGL", false);
00229 }
00230
00231 void KisConfig::setUseOpenGL(bool useOpenGL)
00232 {
00233 m_cfg->writeEntry("useOpenGL", useOpenGL);
00234 }
00235
00236 bool KisConfig::useOpenGLShaders() const
00237 {
00238 return m_cfg->readBoolEntry("useOpenGLShaders", false);
00239 }
00240
00241 void KisConfig::setUseOpenGLShaders(bool useOpenGLShaders)
00242 {
00243 m_cfg->writeEntry("useOpenGLShaders", useOpenGLShaders);
00244 }
00245
00246 Q_INT32 KisConfig::maxNumberOfThreads()
00247 {
00248 return m_cfg->readNumEntry("maxthreads", DEFAULT_MAX_THREADS);
00249 }
00250
00251 void KisConfig::setMaxNumberOfThreads(Q_INT32 maxThreads)
00252 {
00253 m_cfg->writeEntry("maxthreads", maxThreads);
00254 }
00255
00256 Q_INT32 KisConfig::maxTilesInMem() const
00257 {
00258 return m_cfg->readNumEntry("maxtilesinmem", DEFAULT_MAX_TILES_MEM);
00259 }
00260
00261 void KisConfig::setMaxTilesInMem(Q_INT32 tiles)
00262 {
00263 m_cfg->writeEntry("maxtilesinmem", tiles);
00264 }
00265
00266 Q_INT32 KisConfig::swappiness() const
00267 {
00268 return m_cfg->readNumEntry("swappiness", DEFAULT_SWAPPINESS);
00269 }
00270
00271 void KisConfig::setSwappiness(Q_INT32 swappiness)
00272 {
00273 m_cfg->writeEntry("swappiness", swappiness);
00274 }
00275
00276 Q_INT32 KisConfig::getPressureCorrection()
00277 {
00278 return m_cfg->readNumEntry( "pressurecorrection", DEFAULT_PRESSURE_CORRECTION );
00279 }
00280
00281 void KisConfig::setPressureCorrection( Q_INT32 correction )
00282 {
00283 m_cfg->writeEntry( "pressurecorrection", correction );
00284 }
00285
00286 Q_INT32 KisConfig::getDefaultPressureCorrection()
00287 {
00288 return DEFAULT_PRESSURE_CORRECTION;
00289 }
00290
00291 bool KisConfig::tabletDeviceEnabled(const QString& tabletDeviceName) const
00292 {
00293 return m_cfg->readBoolEntry("TabletDevice" + tabletDeviceName + "Enabled", false);
00294 }
00295
00296 void KisConfig::setTabletDeviceEnabled(const QString& tabletDeviceName, bool enabled)
00297 {
00298 m_cfg->writeEntry("TabletDevice" + tabletDeviceName + "Enabled", enabled);
00299 }
00300
00301 Q_INT32 KisConfig::tabletDeviceAxis(const QString& tabletDeviceName, const QString& axisName, Q_INT32 defaultAxis) const
00302 {
00303 return m_cfg->readNumEntry("TabletDevice" + tabletDeviceName + axisName, defaultAxis);
00304 }
00305
00306 void KisConfig::setTabletDeviceAxis(const QString& tabletDeviceName, const QString& axisName, Q_INT32 axis) const
00307 {
00308 m_cfg->writeEntry("TabletDevice" + tabletDeviceName + axisName, axis);
00309 }
00310
00311 void KisConfig::setDockability( Q_INT32 dockability )
00312 {
00313 m_cfg->writeEntry( "palettesdockability", dockability );
00314 }
00315
00316 Q_INT32 KisConfig::dockability()
00317 {
00318 return m_cfg->readNumEntry("palettesdockability", DEFAULT_DOCKABILITY);
00319 }
00320
00321 Q_INT32 KisConfig::getDefaultDockability()
00322 {
00323 return DEFAULT_DOCKABILITY;
00324 }
00325
00326 float KisConfig::dockerFontSize()
00327 {
00328 return (float) m_cfg->readNumEntry("palettefontsize", (int)getDefaultDockerFontSize());
00329 }
00330
00331 float KisConfig::getDefaultDockerFontSize()
00332 {
00333 float ps = QMIN(9, KGlobalSettings::generalFont().pointSize() * 0.8);
00334 if (ps < 6) ps = 6;
00335 return ps;
00336 }
00337
00338 void KisConfig::setDockerFontSize(float size)
00339 {
00340 m_cfg->writeEntry("palettefontsize", size);
00341 }
00342
00343 Q_UINT32 KisConfig::getGridMainStyle()
00344 {
00345 Q_UINT32 v = m_cfg->readNumEntry("gridmainstyle", 0);
00346 if (v > 2)
00347 v = 2;
00348 return v;
00349 }
00350
00351 void KisConfig::setGridMainStyle(Q_UINT32 v)
00352 {
00353 m_cfg->writeEntry("gridmainstyle", v);
00354 }
00355
00356 Q_UINT32 KisConfig::getGridSubdivisionStyle()
00357 {
00358 Q_UINT32 v = m_cfg->readNumEntry("gridsubdivisionstyle", 1);
00359 if (v > 2) v = 2;
00360 return v;
00361 }
00362
00363 void KisConfig::setGridSubdivisionStyle(Q_UINT32 v)
00364 {
00365 m_cfg->writeEntry("gridsubdivisionstyle", v);
00366 }
00367
00368 QColor KisConfig::getGridMainColor()
00369 {
00370 return m_cfg->readColorEntry("gridmaincolor", new QColor(99,99,99));
00371 }
00372
00373 void KisConfig::setGridMainColor(QColor v)
00374 {
00375 m_cfg->writeEntry("gridmaincolor", v);
00376 }
00377
00378 QColor KisConfig::getGridSubdivisionColor()
00379 {
00380 return m_cfg->readColorEntry("gridsubdivisioncolor", new QColor(150,150,150));
00381 }
00382
00383 void KisConfig::setGridSubdivisionColor(QColor v)
00384 {
00385 m_cfg->writeEntry("gridsubdivisioncolor", v);
00386 }
00387
00388 Q_UINT32 KisConfig::getGridHSpacing()
00389 {
00390 Q_INT32 v = m_cfg->readNumEntry("gridhspacing", 10);
00391 return (Q_UINT32)QMAX(1, v );
00392 }
00393
00394 void KisConfig::setGridHSpacing(Q_UINT32 v)
00395 {
00396 m_cfg->writeEntry("gridhspacing", v);
00397 }
00398
00399 Q_UINT32 KisConfig::getGridVSpacing()
00400 {
00401 Q_INT32 v = m_cfg->readNumEntry("gridvspacing", 10);
00402 return (Q_UINT32)QMAX(1, v );
00403 }
00404
00405 void KisConfig::setGridVSpacing(Q_UINT32 v)
00406 {
00407 m_cfg->writeEntry("gridvspacing", v);
00408 }
00409
00410 Q_UINT32 KisConfig::getGridSubdivisions()
00411 {
00412 Q_INT32 v = m_cfg->readNumEntry("gridsubsivisons", 2);
00413 return (Q_UINT32)QMAX(1, v );
00414 }
00415
00416 void KisConfig::setGridSubdivisions(Q_UINT32 v)
00417 {
00418 return m_cfg->writeEntry("gridsubsivisons", v);
00419 }
00420
00421 Q_UINT32 KisConfig::getGridOffsetX()
00422 {
00423 Q_INT32 v = m_cfg->readNumEntry("gridoffsetx", 0);
00424 return (Q_UINT32)QMAX(0, v );
00425 }
00426
00427 void KisConfig::setGridOffsetX(Q_UINT32 v)
00428 {
00429 m_cfg->writeEntry("gridoffsetx", v);
00430 }
00431
00432 Q_UINT32 KisConfig::getGridOffsetY()
00433 {
00434 Q_INT32 v = m_cfg->readNumEntry("gridoffsety", 0);
00435 return (Q_UINT32)QMAX(0, v );
00436 }
00437
00438 void KisConfig::setGridOffsetY(Q_UINT32 v)
00439 {
00440 m_cfg->writeEntry("gridoffsety", v);
00441 }
00442