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Comparing trunk/src/io/Globals.hpp (file contents):
Revision 538 by tim, Thu May 19 21:31:23 2005 UTC vs.
Revision 603 by chrisfen, Fri Sep 16 16:07:39 2005 UTC

# Line 113 | Line 113 | class Globals{
113    int    getUseInitXSstate( void )  { return useInitXSstate; }
114    double getOrthoBoxTolerance(void) { return orthoBoxTolerance; }
115    int    getPBC( void )             { return usePBC; }
116  int    getUseRF( void )           { return useRF; }
116    char*  getMixingRule( void)       { return mixingRule; }
117    double getZconsTime(void)         { return zcons_time; }
118    double getZconsTol(void)          { return zcons_tol; }
# Line 132 | Line 131 | class Globals{
131    int    getMinLSMaxIter(void)      { return minimizer_ls_maxiteration; }
132    int    getUseSolidThermInt(void)  { return useSolidThermInt; }
133    int    getUseLiquidThermInt(void) { return useLiquidThermInt; }
134 <  double getThermIntLambda(void)   { return thermodynamic_integration_lambda; }
134 >  double getThermIntLambda(void)    { return thermodynamic_integration_lambda; }
135    double getThermIntK(void)         { return thermodynamic_integration_k; }
136    char*  getForceFieldVariant( void ) { return forcefield_variant; }
137 <  char* getForceFieldFileName() { return forcefield_filename;}
137 >  char*  getForceFieldFileName()    { return forcefield_filename; }
138    double getDistSpringConst(void)   { return therm_int_dist_spring; }
139    double getThetaSpringConst(void)  { return therm_int_theta_spring; }
140    double getOmegaSpringConst(void)  { return therm_int_omega_spring; }
141 <  double getSurfaceTension(void) {return surface_tension; }
141 >  double getSurfaceTension(void)    { return surface_tension; }
142 >  bool   getPrintPressureTensor(void) { return print_pressure_tensor;}
143 >  char*  getElectrostaticSummationMethod(void) { return electrostaticSummationMethod; }
144 >  double getDampingAlpha(void)      { return dampingAlpha; }
145 >  char*  getCutoffPolicy(void)      { return cutoffPolicy; }
146    
147    short int haveDt( void )            { return have_dt; }
148    short int haveRunTime( void )       { return have_run_time; }
# Line 182 | Line 185 | class Globals{
185    short int haveMinLSTol(void)        { return have_minimizer_ls_tol; }
186    short int haveMinLSMaxIter(void)    { return have_minimizer_ls_maxiteration;}
187    short int haveThermIntLambda(void)  { return have_thermodynamic_integration_lambda; }
188 <  short int haveThermIntK(void)    { return have_thermodynamic_integration_k; }
189 <  short int haveForceFieldVariant(void) { return have_forcefield_variant; }
188 >  short int haveThermIntK(void)       { return have_thermodynamic_integration_k; }
189 >  short int haveForceFieldVariant(void)  { return have_forcefield_variant; }
190    short int haveForceFieldFileName(void) { return have_forcefield_filename; }
191 <  short int haveDistSpringConst(void) { return have_dist_spring_constant; }
192 <  short int haveThetaSpringConst(void) { return have_theta_spring_constant; }
193 <  short int haveOmegaSpringConst(void) { return have_omega_spring_constant; }
194 <  short int haveSurfaceTension(void) { return have_surface_tension; }
191 >  short int haveDistSpringConst(void)    { return have_dist_spring_constant; }
192 >  short int haveThetaSpringConst(void)   { return have_theta_spring_constant; }
193 >  short int haveOmegaSpringConst(void)   { return have_omega_spring_constant; }
194 >  short int haveSurfaceTension(void)     { return have_surface_tension; }
195 >  short int havePrintPressureTensor(void) {return have_print_pressure_tensor;}
196 >  short int haveElectrostaticSummationMethod(void) {return have_electro_sum_method;}
197 >  short int haveDampingAlpha(void)       { return have_damping_alpha; }
198 >  short int haveCutoffPolicy(void)       { return have_cutoff_policy; }
199 >
200    /* other accessors */
201    Component** getComponents( void )   { return components; }
202    ZconStamp** getZconStamp( void )    { return zConstraints; }
# Line 235 | Line 243 | class Globals{
243    int useInitTime;
244    int useInitXSstate;
245    int usePBC;
238  int useRF;
246    double q_mass;
247    double tau_thermostat;
248    double tau_barostat;
# Line 265 | Line 272 | class Globals{
272    double therm_int_theta_spring;
273    double therm_int_omega_spring;
274    double surface_tension;
275 +  bool print_pressure_tensor;
276 +  char electrostaticSummationMethod[100];
277 +  double dampingAlpha;
278 +  char cutoffPolicy[100];
279    
280    //required arguments
281    short int have_force_field, have_n_components, have_target_temp;
# Line 293 | Line 304 | class Globals{
304    short int have_theta_spring_constant;
305    short int have_omega_spring_constant;
306    short int have_surface_tension;
307 +  short int have_print_pressure_tensor;
308 +  short int have_electro_sum_method;
309 +  short int have_damping_alpha;
310 +  short int have_cutoff_policy;
311   };
312  
313   #endif

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