User:Remig/plico/plicoCommon
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This script contains routines used by other scripts of the Plico suite. It must be located in the same directory as any script that uses these routines.
Copy and paste the following into a text editor and save in your scripts folder as plicoCommon.spt.
# plicoCommon - Jmol script by Ron Mignery # v1.10 beta 9/11/2015 -use thisModel # # Routines and values common to all Plico suite scripts # Must be present in the same directory as other Plico scripts that use it kCommon = 6 kDtolerance = 0.1 kAtolerance = 5.0 kCtolerance = 1.85 kMtolerance = 0.8 gMouseX = 0 gMouseY = 0 gMinNo = 1 gMaxNo = 9999 gOK = true # global return value to work around jmol *feature* gOk2 = true # " " gScheme = "Jmol" gAltScheme = "Rasmol" gBusy = false gEcho = "" gMenuMin = false # Return L tetrahedron point if i1<i2<i3, else R point function get_tet_idx(i1, i2, i3, dist) { var v1 = {atomIndex=i3}.xyz - {atomIndex=i2}.xyz var v2 = {atomIndex=i1}.xyz - {atomIndex=i2}.xyz var axis = cross(v1, v2) var pma = ({atomIndex=i1}.xyz + {atomIndex=i3}.xyz)/2 var pmo = {atomIndex=i2}.xyz + {atomIndex=i2}.xyz - pma var pt = pmo + (axis/axis) var v = pt - {atomIndex=i2}.xyz var cdist = distance(pt, {atomIndex=i2}) var factor = (dist/cdist) var lpt = v * factor return lpt + {atomIndex=i2}.xyz } function get_trigonal_idx(i1, i2, i3, dist) { var v1 = {atomIndex=i1}.xyz - {atomIndex=i2}.xyz var v2 = {atomIndex=i3}.xyz - {atomIndex=i2}.xyz var pt = {atomIndex=i2}.xyz - (v1 + v2) var v = pt - {atomIndex=i2}.xyz var cdist = distance(pt, {atomIndex=i2}) var factor = (dist/cdist) var lpt = (v * factor) return lpt + {atomIndex=i2}.xyz } function abs( x) { return ((x < 0) ? -x : x) } # Selected must include second parameter but not the first function set_distance_atoms( static, mobile, desired) { try { var v = mobile.xyz - static.xyz var dist = distance(static, mobile) translateSelected @{((v * (desired/dist)) - v)} } catch { } } function set_distance_idx( staticIdx, mobileIdx, desired) { set_distance_atoms({atomIndex=staticIdx}, {atomIndex=mobileIdx}, desired) } # Selected must include third parameter but not the first function set_angle_atoms( stator, pivot, rotor, toangle) { try { var v1=stator.xyz - pivot.xyz var v2=rotor.xyz - pivot.xyz var axis = cross(v1, v2) + pivot.xyz var curangle = angle(stator, pivot, rotor) rotateselected @axis @pivot @{curangle-toangle} } catch { } } function set_angle_idx( statorIdx, pivotIdx, rotorIdx, toangle) { set_angle_atoms({atomIndex=statorIdx}, {atomIndex=pivotIdx}, {atomIndex=rotorIdx}, toangle) } # Selected must include fourth parameter but not the first function set_dihedral_atoms( stator, pivot1, pivot2, rotor, toangle) { try { var curangle = angle(stator, pivot1, pivot2, rotor) rotateselected {pivot2} {pivot1} @{curangle-toangle} } catch { } } function set_dihedral_idx( statorIdx, pivot1idx, pivot2idx, rotorIdx, toangle) { set_dihedral_atoms({atomIndex = statorIdx}, {atomIndex = pivot1idx}, {atomIndex = pivot2idx}, {atomIndex = rotorIdx}, toangle) } function angle_idx_4( a1idx, a2idx, a3idx, a4idx) { return angle({atomIndex=a1idx}, {atomIndex=a2idx}, {atomIndex=a3idx}, {atomIndex=a4idx}) } # First and last are BB atoms # Any side atoms in the range are also selected function select_nward_idx (firstIdx, lastIdx) { var firstno = ((firstIdx < 0) ? {atomIndex=lastIdx}.atomno : {atomIndex=firstIdx}.atomno) var lastno = ((lastIdx < 0) ? firstno : {atomIndex=lastIdx}.atomno) var iChain = ((firstIdx < 0) ? {atomIndex=lastIdx}.chain : {atomIndex=firstIdx}.chain) select ((atomno <= firstno) and (atomno >= lastno) and (chain = iChain) and thisModel) if ({(atomno=firstno) and (chain=gChain) and thisModel}.atomName == "C") { # if psi add_sc_to_select(firstno-1, true, true, iChain) var a = {(atomno=@{firstno+1}) and (chain=iChain) and thisModel} a.selected = true # add O } if ({(atomno=firstno) and (chain=iChain) and thisModel}.atomName == "CA") { add_sc_to_select(firstno, true, false, iChain) } if ({(atomno=lastno) and (chain=iChain) and thisModel}.atomName == "C") { # if psi add_sc_to_select(lastno-1, false, false, iChain) } } function add_sc_to_select(CAno, isAdd, addOXT, iChain) { var res = {(atomno=CaNo) and (chain=iChain) and thisModel}.resno var scset = {(resno=res) and (chain=iChain) and thisModel and sidechain} if (addOXT) { scset = scset or get_atom_rcn(res, iChain, "OXT") } if (isAdd) { select add scset } else { select remove scset } } # First and last are BB atoms # Any side atoms in the range are also selected function select_cward_idx (firstIdx, lastIdx) { var firstno = ((firstIdx < 0) ? gMaxNo : {atomIndex=firstIdx}.atomno) var lastno = ((lastIdx < 0) ? 1 : {atomIndex=lastIdx}.atomno) var iChain = ((firstIdx < 0) ? {atomIndex=lastIdx}.chain : {atomIndex=firstIdx}.chain) # If nWard anchor in range, begin selection with it if ((gNanchorIdx >= 0) and ({atomIndex=gNanchorIdx}.chain == iChain)) { var aNo = {atomIndex=gNanchorIdx}.atomno if (aNo > firstNo) { firstno = aNo } } # If cWard anchor in range, end selection with it if ((gCanchorIdx >= 0) and ({atomIndex=gCanchorIdx}.chain == iChain)) { var aNo = {atomIndex=gCanchorIdx}.atomno if (aNo < lastNo) { lastno = aNo } } select ((atomno >= firstno) and (atomno <= lastno) and (chain = iChain) and thisModel) if ({(atomno=firstno) and (chain=iChain) and thisModel}.atomName == "C") { # if psi add_sc_to_select(firstno-1, false, false, iChain) } if ({(atomno=lastno) and (chain=iChain) and thisModel}.atomName == "CA") { add_sc_to_select(lastno, true, false, iChain) } if ({(atomno=lastno) and (chain=iChain) and thisModel}.atomName == "C") { # if psi add_sc_to_select(lastno-1, true, true, iChain) var a = {(atomno=@{lastno+1}) and (chain=iChain) and thisModel} a.selected = true # add O } } # tug.spt needed to handle collisions function to_handle_collisions( idx) { #(Re)load tug functions script $SCRIPT_PATH$tug.spt if (kTug < 3) { prompt ("A newer version of tug.SPT is required") quit } handle_collisions( idx) } function count_collisions(rc) { var cAtoms = ({}) for (var idx = {thisModel}.min.atomIndex; idx <= {thisModel}.max.atomIndex; idx++) { if ({atomIndex=idx} and {element!="H"}) { var lcAtoms = (within(kCtolerance, false, {atomIndex=idx}) and {atomIndex > idx} and {element!="H"} and not connected({atomIndex=idx})) if (lcAtoms) { cAtoms = cAtoms or lcAtoms or {atomIndex=idx} if (rc == true) { print format("Collision of idx=%d with %s", idx, lcAtoms) for (var i = 1; i <= lcAtoms.size; i++) { measure {atomindex=idx} ({@lcAtoms[i]}) } } } } } return cAtoms } # Utility function get_atom_rcn( iResno, iChain, iName) { return {(resno=iResno) and (chain=iChain) and (atomName=iName) and thisModel} } # Utility function atom_noc( iNo, iChain) { return {(atomno=iNo) and (chain=iChain) and thisModel} } # A handy debug routine function hi { hover "%D %U" } function plico_menu_toggle() { var yr = _height-25 if ((_mouseY > (_height-25)) and (_mouseX < 300)) { if (gMenuMin) { echo @gEcho } else { var p = gEcho.find("|") if (p > 0) { echo @{gEcho[1][p-1]} } else { echo } } gMenuMin = !gMenuMin } } function plico_prelim(repair, backup) { # Push selected gSelSaves = {selected} select (thisModel) # Bad idea to proceed when collisions present while (repair) { var cc = count_collisions(({})).size if (cc > 0) { var p = prompt(format("%d collision%s present!\nProceed anyway?", cc, ((cc > 1) ? "s" : "")), "OK|Cancel|Repair", true) if (p == "Cancel") { quit } else if (p == "Repair") { select (thisModel) allSet = {selected} gChain = "XX" for (var idx = {allSet}.atomIndex.min; idx <= {allSet}.atomIndex.max; idx++) { if ({atomIndex=idx}.chain != gChain) { gChain = {atomIndex=idx}.chain select {(chain=gChain) and thisModel} to_handle_collisions( idx) } } } else { break } } else { break } } # endwhile gZoom = script("show zoom") gRotate = script("show rotation") if (backup) { write plico_save.pdb } select none gScheme = defaultColorScheme gAltScheme = ((gScheme == "jmol") ? "rasmol" : "jmol") set echo TOP LEFT background ECHO yellow gChain = "" gMenuMin = false unbind } # gPlicoRecord is maintained by the macro plicoRecord function plico_record(s) { var g = format("show file \"%s\"", gPlicoRecord) var ls = script(g) if (ls.find("FileNotFoundException") > 0) { ls = "" } ls += s write var ls @gPlicoRecord } function plico_exit(undo) { var p = "" var done = false if (gPlico) { p = prompt(format("Exit %s?", gPlico), "Yes|No"+(undo ? "|Undo all" : ""), true) if (p == "Undo all") { load plico_save.pdb script inline gZoom rotate @gRotate echo Session undone if (gPlicoRecord != "") { plico_record("load plico_save.pdb;") } reset gPlotEcho set AnimFrameCallback NONE } } if (p != "No") { unbind all halo off select (thisModel) halo off star off color {selected} @gScheme draw gSCcircle DELETE gBusy = false gEcho = "" set echo TOP LEFT background ECHO yellow echo @gEcho gMenuMin = false done = true # Pop selected select gSelSaves } return done } # Prevents minimization from disrespecting planar elements # and allows calculate hydrogens to place hydrogens correctly function double_bond_planars(iChain, undo) { print format("double_bond_planars(%s, %s)", iChain, undo) for (var i = get_resno_min(iChain); i <= get_resno_max(iChain); i++) { var aa = {resno=i}.group[0] var bps = ["O","C"] switch (aa) { case 'ARG' : bps += ["CZ","NH1"] break case 'ASN' : case 'ASP' : bps += ["OD1","CG"] break case 'GLN' : case 'GLU' : bps += ["OE1","CD"] break case 'HIS' : bps += ["CG","CD2","CE1","NE2"] break case 'PHE' : case 'TYR' : bps += ["CG","CD1","CD2","CE2","CE1","CZ"] break case 'TRP' : bps += ["CG","CD1","CD2","CE2","CE3","CZ3","CZ2","CH2"] break case 'A' : case 'G' : case 'DA' : case 'DG' : bps = ["N7","C8","C4","C5","N3","C2", ((aa = "A") ? "N1" : "O6"), "C6"] break case 'C' : case 'U' : case 'T' : case 'DC' : case 'DT' : case 'DU' : bps = ["C5","C6","C2","O2","C4","CZ",((aa = "C") ? "N3" : "O4")] break } for (var j = 1; j <= bps.size; j += 2) { var a1 = get_atom_rcn( i, iChain, bps[j]) var a2 = get_atom_rcn( i, iChain, bps[j+1]) if (x1) throw context t if (undo) { connect @a1 @a2 single } else { connect @a1 @a2 double } } var a1 = get_atom_rcn(get_resno_max(iChain), iChain, "O") var a2 = get_atom_rcn(get_resno_max(iChain), iChain, "C") if (undo) { connect @a1 @a2 single } else { connect @a1 @a2 double } } } function get_resno_max( iChain) { return {not hoh and not ligand and (chain=iChain) and thisModel}.resno.max } function get_resno_min( iChain) { return {not hoh and not ligand and (chain=iChain) and thisModel}.resno.min } function plico_minimize( aset) { try { var savemt = useMinimizationThread set useMinimizationThread false var ms = minimizationSilent set minimizationSilent true minimize @aset set useMinimizationThread savemt set minimizationSilent ms } catch { print "minimization error" } } # end of plicocommon.spt