ELF>e@@ UH1EUEUH H ]UHSHH}HuHxphH`LXPHHEHHUHHEHEHHUHHEfEfEHEHE`HtZHHHHALAHǸHHHEH`H1HHHrHQHH)ȃHHHHUHHHHHHEHHtiHHHEHHHSARAHǸHHHHUHHHHHHEHHHEHHEHEHEmHEMHx(@HEHx fH*HHH fH*X X8Hf(fHnfH~fHnYPf(X8f(YpHEHx fH*HHH fH*XfZ^f(X@HE@HxH0@HEHx fH*HHH fH*X X8Hf(fHnfH~fHnYPf(X8f(YpHEHx fH*HHH fH*XfZ^f(X@HE@HxH(@HEHx fH*HHH fH*X X8Hf(fHnfH~fHnYPf(X8f(YpHEHx fH*HHH fH*XfZ^f(X@HE@ HEf@(HEf@,HEf@0ff.Hzff.HpYh@HHf(fHn@YHEHx fH*HHH fH*XZ^fZHE@DZpf(YhHEHx fH*HHH fH*XZ^fZHE@DHE@DE(fnf~EH`HHPH`HH`HHEHHEƀHEHEHEH;EHEHEH;EHEHEH;EeHEHHHEHPHtiHHHEHHHSA}AHǸHHHHEHHHEHPHHEHPHEHEHEgHEGHx @HEHx fH*HHH fH*X X8Hf(fHnfH~fHnYPf(X8f(YpHEHx fH*HHH fH*XfZ^f(X@HE@HxH8@HEHx fH*HHH fH*X X8Hf(fHnfH~fHnYPf(X8f(YpHEHx fH*HHH fH*XfZ^f(X@HE@HxH@HEHx fH*HHH fH*X X8Hf(fHnfH~fHnYPf(X8f(YpHEHx fH*HHH fH*XfZ^f(X@HE@ HEf@@HEf@DHEf@Hff.Hzff.HpYh@HHf(fHn@YHEHx fH*HHH fH*XZ^fZHE@PZpf(YhHEHx fH*HHH fH*XZ^fZHE@PHE@PE(fnf~EHXHHPHXHHXHHEHHE@`HmHEHEH;EHEHEH;EHEHEH;EkHEƀUHEE|HEHUHEEHEEHEHU HEfLHEfPHEfHEp@HEp@ HEp@(HEfZp@HEHxHEHxB@HEHxB@HE@fZYYHEZDHE@fZYHEZHHEHUHHEHǀHEHǀHEHǀ8HEHǀhHEHǀHEHǀHEǀPHEHEHHHE HEHPHHEfǀdHEHǀHEfǀHEHǀHEH]UHHH}HEHHHEHPHHEHHHEHHHEHUHH}E;HEHPUHcHHHEHEf@THEf@XEHE苀 9E|]UHH}HuEZHEHPUHcHHHEHEHEHE@PE^EEEEEYYEEEYEEHE@TYEHE@THE@XYEHE@XHEHPUHcHH@PEEY(YMHEHPUHcHH@THEHPUHcHHY@THEHPUHcHHHTHEHPUHcHHY@TEHEȋ 9E]UHHPH}HuHUHEȾHHEHEhhAAHǸHHEH9EHEHPUHcHH@XfZHEHPUHcHH@TfZHEHPUHcHHH HEHPUHcHH@HEHPUHcHHHHHEHPUHcHHHHEf(f(f(f(fHnHǸEHE 9EEEE}U UЍEHHHEHHHEHEH;E6EpEHEPHEAHǸEHEHPUHcHH@XfZHEHPUHcHH@TfZHEHPUHcHHH HEHPUHcHH@HEHPUHcHHHHHEHPUHcHHHHEf(f(f(f(fHnHǸEHE؋ 9EE}yE}_E}EHEHLT$HArUHATARSHX!HHDž HDžHDžffHDžHDžHDžHDžHDžHDžHDžHDžHDžHDžHDžHDžDžHDžHDžHDžHDžHDžHDžHDžHDžHDžHDžHDžHDžHDžHDžHDž HDž(HDž0HDž8HDž@HDžHHDžPHDžXHDž`HDžhHDžpHEHEH E?4HHHHǸPHHHǸ+HHHǸHHHǸHHHǸHH HǸHHHǸuHHHHZHHHHA_AHǸHHHHΉE}Gff/w$HHtH Ht HHu&HHHƿHƿHƿYfH~fHnúHƿHƿZ,,Y(Y,YfZfH~fHnúHƿ DžZ Dž,4ZDžHHH8HDž@ƅP8HHHHDžHHHHH@HDžHHHHHHHHHHHHHE'E Ef*MYf*MYf*MYLHHỦ UȉЍEčHHf(f(Iйf(fInHHcHհỦ UȉЍEHHŰHHHỦ UȉЍEHHŰHHHỦ UȉЍEHHŰHHjAAHHỦ UȉЍEHHŰHAHE}E}E}HHEEEHHDŽE}~HEHEEEHHŰHE}~HHEzEHHŰH9EtcH0EHHŰHuHAHH+0H‹EHHH‹EHHE}~eH@HuHH{>@B>{>=,?{>@B>{>@B>{>=,?{>=,?    TotalMass?SmoothedGasMass?UnsmoothedGasMass?DarkMatterMass?StellarMass?BlackHoleMass?StarFormationRate-???../../tests/test27cellsStars.c%s %s:%s():%i: Couldn't allocate the cell %s %s:%s():%i: couldn't allocate particles, no. of particles: %d wpos_zpos_ypos_xID# %4s %10s %10s %10s %13s %13s wcount_dhwcount# Main cell -------------------------------------------- %6llu %10f %10f %10f %13e %13e # Offset: [%2d %2d %2d] ----------------------------------- %lf%zu%s %s:%s():%i: Unknown option. s:h:p:n:N:r:t:d:f: Usage: %s -n PARTICLES_PER_AXIS -N SPARTICLES_PER_AXIS -r NUMBER_OF_RUNS [OPTIONS...] Generates 27 cells, filled with particles on a Cartesian grid. These are then interacted using runner_dopair_stars_density() and runner_doself_stars_density(). Options: -h DISTANCE=1.2348 - Smoothing length in units of -p - Random fractional change in h, h=h*random(1,p) -s size - Physical size of the cell -d pert - Perturbation to apply to the particles [0,1[ -f fileName - Part of the file name used to save the dumps runner_doself1_branch_stars_density%s %s: DOSELF1 function called: %s runner_dopair_branch_stars_density%s %s: DOPAIR1 function called: %s %s %s: Smoothing length: h = %f Cubic spline (M4)%s %s: Kernel: %s %s %s: Neighbour target: N = %f swift_star_dopair_27_%.150s.dat%s %s: Corner calculations took: %.3f %s. %s %s: Edge calculations took: %.3f %s. %s %s: Face calculations took: %.3f %s. %s %s: Self calculations took: %.3f %s. %s %s: SWIFT calculation took: %.3f %s. star_brute_force_27_%.150s.dat%s %s: Brute force calculation took : %.3f %s. make_cellmain??8<$]??As?@=?GCC: (GNU) 14.1.0zRx AC V  <AC H `gAC b _AC Z AC  ]AC X 8eE LvDvp vxHvh@ G 0+@88lDlO4Yl f 0x  =e7f(;gDI_^tn]Ze)?Titest27cellsStars.cgettickskernel_coeffsrunner_shiftrunner_flipsortlistIDsid_scalesub_sid_flagextra_lightcone_map_types__FUNCTION__.2__FUNCTION__.1partId.0lightcone_map_total_mass_get_valuelightcone_map_total_mass_type_contributeslightcone_map_total_mass_baseline_valuelightcone_map_gas_mass_get_valuelightcone_map_gas_mass_type_contributeslightcone_map_dark_matter_mass_get_valuelightcone_map_dark_matter_mass_type_contributeslightcone_map_stellar_mass_get_valuelightcone_map_stellar_mass_type_contributeslightcone_map_black_hole_mass_get_valuelightcone_map_black_hole_mass_type_contributeslightcone_map_sfr_get_valuelightcone_map_sfr_type_contributesmake_cellposix_memalignstdoutfflushclocks_get_timesincestartstderrfprintfexitmemsetrandom_uniformfmaxfshuffle_particlesshuffle_sparticlesclean_upfreezero_particle_fieldsend_calculationdump_particle_fieldsfopenfwritefclosemainengine_pinclocks_set_cpufreqfeenableexceptsrandoptarg__isoc99_sscanfstrcpygetoptputcharcosmology_init_no_cosmorunner_do_drift_partrunner_do_drift_spartrunner_do_hydro_sortrunner_do_stars_sortrunner_dopair_branch_stars_densityrunner_doself_branch_stars_densitysprintfclocks_getunitclocks_from_tickspairs_all_stars_densityself_all_stars_density#$%&' x P p(' %)#$%&' x P ('%)*++s++V,#$%&'- x2 P7 D(O'W%a)*++   +    +  + ,c o  I-h.00000 4+  0 *6 < A F K X(r 8w5\ xi( ( x(S689:; < =<  =<$ 1==<I V=b<n {=< =< =<>$%&'   P #(*'2%<)N X? @)& H  p@&   @!&+ 3 =@B&G  L T  ^@&  H@A#3MqB7 H"CDEgF1\GH2` pmI3 J K & !  !@!J3!K=!&J! R! \!@a!J!K!&! ! !@!J!K!&! !  !@!J"K'"&4" <" PF"@d"1"L"M"2# #I8#3=#JV#K`#&m# u# #@#/08` h     !@@@@@@@@@ @(@0@8@@@H_P@X@`@h@p@x@@@@@@@@@@@@@@@@@@ @(@0@8@@@H:P@X`@hp @dtZ.symtab.strtab.shstrtab.rela.text.data.bss.rela.rodata.comment.note.GNU-stack.rela.eh_frame @#@XH  &#,$6$ 1@x^` >0:G:\:W@d <P  PCef