ELF>Y@@ usrparse.cstderrParseTide__intel_sse4_strncmp__intel_sse4_strlen__intel_sse4_atol__intel_ssse3_strncpyfprintffputsUserFreefreeUsageUsrOptUsrDes.505.0.6ParseCmdLineParseUserChoicemallocsprintfParseUserChoice..0printfGetIndexFromStrClock_Scanstrtod__intel_sse4_strcpyUserInit p   2FXnv|p "UHHAUAVAWSH I3If4$I@t$HHA6A7:utW:VuHHu3H߾:utW:VuHHu3H߾:utW:VuHHu3AH߾:utW:VuHHu3H߾:utW:VuHHu3H߾:utW:VuHHu3~H߾:utW:VuHHu3=HعuOHHHtu HHHtHHAAEHعuOHHHtu HHHtHHAAEHعuOHHHtu HHHtHHAAEOHعuOHHHtu HHHtHHAAEHعuuHHHtu HHHt6AHsH<$D$H $HHAAAE)]HعuuHHHtu HHHt6AHsH<$D$H $HHAAAE*HعHHHtu HHHt6AHsH<$D$H $HHAAAE,DAEc:AE0AE&AEAEAEAE3H [A_A^A]H]þH3H=H5H [A_A^A]H]UHHATHII|$HtI|$HtI|$HtI|$ HtI|$(HtI|$0HtI|$@HtI|$HHtI|$PHtI|$XHtI|$`HtI|$hHto 3z$3H?A4$AD$~D$~D$@IL$0IL$(AD$8IL$`IL$hAt$pAD$t At$xAt$|I$A$I$A$A$wHA\H]@H(H3H=H53L$$AENLHHtu HHHHv AL$D$ LHHtu HHHv AHL$ D$ LHHtu HHHv AHL$ D$ LHHtu HHHv AHL$ D$ LHHtu HHHv AHL$ D$ LHHtu HHHv AHL$ D$ LHHtu HHHv AHL$D$ LHHtu HHHv AHL$D$ LHHtu HHHv AHL$D$ LHHtu HHH v AH L$D$ LHHtu HHH v AH L$D$ LHHtu HHH v AH L$D$ LHHtu HHH v AH L$D$ LHHtu HHH v AH L$D$ LHHtu HHHv APT$D$ HT$3H=J BL3H=J AAH5L$$H5H(ATAUVAIE~ -290 ft For <= -290 feet use tide + staticHt, V2.2.{ht} = similar to V2.1 except exclude subgrid cells, V2.4.{ht} = similar to V2.2.{ht} except remove the -290 feet limit, V3 = tideV3+surge by adding tidal forcing at deep water boundary grids, V3.1 = similar to V3 except adding tidal forcing at all water boundary grids, V4.1.{ht} = tideV2+surge(for depths < -${ht} ft) and > -290 ft For <= -290 feet use tide + staticHt, V4.2.{ht} = similar to V2.1 except exclude subgrid cells. V4.4.{ht} = similar to V2.2.{ht} except remove the -290 feet limit.nesting option: [0] = normal run (default value); 1 = outer domain outputing nesting boundary for future inner domain runs; 2 = inner domain reading nesting boundary output from outer domain runs; 21 = inner domain reading nesting boundary output from outer domain runs,but only in deep water grids; 3 = generate boundary grids total number and I & J index file; 31 = generate boundary grids total number and I & J index file,but only in deep water areasflooding option: 0 = without overland flooding (same as ETSS); [1] = normal run with overland flooding (default value)tidal database to use: [2012] = use ec2012, 2001 = use ec2001statistical method: [0] = save instantaneous values to rexfile 1 = save max values over rexSave time intervals to rex/env?x AC O8  " 8  "8  "8  "%ABBF A 8  " 8  "8  "8  "pABBF <pAC J 8  "WF $,D0mFEUdTBBA Ox=BBA gEFBBA DFBBdBAA mABA NABA UABA UAB$ AC K 8  " 8  "8  "yBBF A  8  " 8  "8  "PBBF A  8  " 8  "8  "|BBF A  8  " 8  "8  "WBBF A  8  " 8  "8  "]BBF A  8  " 8  "8  "WBBF A  8  " 8  "8  "WBBF A  8  " 8  "8  "WBBF A  8  " 8  "8  "WBBF A  8  " 8  "8  "BBF A  8  " 8  "8  "ZBBF A  8  " 8  "8  "TBBF A  8  " 8  "8  "TBBF A  8  " 8  "8  "TBBF A  8  " 8  "8  "uBBF A  8  " 8  "8  "TBBF A  8  " 8  "8  "uBBF A  8  " 8  "8  "TBBF A  8  " 8  "8  "uBBF A  8  " 8  "8  "uBBF A  8  " 8  "8  "uBBF A  8  " 8  "8  "uBBF A  8  " 8  "8  "uBBF A  8  " 8  "8  "uBBF A  8  " 8  "8  "uBBF A  8  " 8  "8  "TBBF A  8  " 8  "8  "UBBF A  8  " 8  "8  "mBBF A  8  " 8  "8  "UBBF  .shstrtab.strtab.symtab.data.bss.text.rodata.str1.4.rodata.str1.32.rodata.note.GNU-stack.eh_frame.rela.data.rela.text.rela.rodata.rela.eh_frame $ ,(80@8H@PHXP`Xp`xhpx4 |k    G ~      & V i       " 5 M X        . = M e p     E QV[ bg#2AI   + W   " c   & g   * k      & - 9 A F X  _ h m Lt y   ! - : F U          '  8 F ~        y     8 Z  |  = t    $ T g       2 E f q      . = R s ~       P j y  C b     Eq |   D d   D d   D d   D ^ y   ` 0H (08@@HP(XP`hp@x `  XYYYY :(08|@]H>PXw`Uh3px} 0X p (   @+l0 !&p,2 ;2& K 0 S2c2 <m<px(?0XTY