From 9dadfdb3332b073aaff508d126e90200ad09868d Mon Sep 17 00:00:00 2001
From: Navan Chauhan <navanchauhan@gmail.com>
Date: Fri, 11 Sep 2020 16:18:38 +0530
Subject: removed downloaded plip

---
 plip/visualization/chimera.py | 221 ------------------------------------------
 1 file changed, 221 deletions(-)
 delete mode 100644 plip/visualization/chimera.py

(limited to 'plip/visualization/chimera.py')

diff --git a/plip/visualization/chimera.py b/plip/visualization/chimera.py
deleted file mode 100644
index a37fffb..0000000
--- a/plip/visualization/chimera.py
+++ /dev/null
@@ -1,221 +0,0 @@
-class ChimeraVisualizer:
-    """Provides visualization for Chimera."""
-
-    def __init__(self, plcomplex, chimera_module, tid):
-        self.chimera = chimera_module
-        self.tid = tid
-        self.uid = plcomplex.uid
-        self.plipname = 'PLIP-%i' % self.tid
-        self.hetid, self.chain, self.pos = self.uid.split(':')
-        self.pos = int(self.pos)
-        self.colorbyname = self.chimera.colorTable.getColorByName
-        self.rc = self.chimera.runCommand
-        self.getPseudoBondGroup = self.chimera.misc.getPseudoBondGroup
-
-        if plcomplex is not None:
-            self.plcomplex = plcomplex
-            self.protname = plcomplex.pdbid  # Name of protein with binding site
-            self.ligname = plcomplex.hetid  # Name of ligand
-            self.metal_ids = plcomplex.metal_ids
-            self.water_ids = []
-            self.bs_res_ids = []
-            self.models = self.chimera.openModels
-
-            for md in self.models.list():
-                if md.name == self.plipname:
-                    self.model = md
-
-            self.atoms = self.atom_by_serialnumber()
-
-    def set_initial_representations(self):
-        """Set the initial representations"""
-        self.update_model_dict()
-        self.rc("background solid white")
-        self.rc("setattr g display 0")  # Hide all pseudobonds
-        self.rc("~display #%i & :/isHet & ~:%s" % (self.model_dict[self.plipname], self.hetid))
-
-    def update_model_dict(self):
-        """Updates the model dictionary"""
-        dct = {}
-        models = self.chimera.openModels
-        for md in models.list():
-            dct[md.name] = md.id
-        self.model_dict = dct
-
-    def atom_by_serialnumber(self):
-        """Provides a dictionary mapping serial numbers to their atom objects."""
-        atm_by_snum = {}
-        for atom in self.model.atoms:
-            atm_by_snum[atom.serialNumber] = atom
-        return atm_by_snum
-
-    def show_hydrophobic(self):
-        """Visualizes hydrophobic contacts."""
-        grp = self.getPseudoBondGroup("Hydrophobic Interactions-%i" % self.tid, associateWith=[self.model])
-        grp.lineType = self.chimera.Dash
-        grp.lineWidth = 3
-        grp.color = self.colorbyname('gray')
-        for i in self.plcomplex.hydrophobic_contacts.pairs_ids:
-            self.bs_res_ids.append(i[0])
-
-    def show_hbonds(self):
-        """Visualizes hydrogen bonds."""
-        grp = self.getPseudoBondGroup("Hydrogen Bonds-%i" % self.tid, associateWith=[self.model])
-        grp.lineWidth = 3
-        for i in self.plcomplex.hbonds.ldon_id:
-            b = grp.newPseudoBond(self.atoms[i[0]], self.atoms[i[1]])
-            b.color = self.colorbyname('blue')
-            self.bs_res_ids.append(i[0])
-        for i in self.plcomplex.hbonds.pdon_id:
-            b = grp.newPseudoBond(self.atoms[i[0]], self.atoms[i[1]])
-            b.color = self.colorbyname('blue')
-            self.bs_res_ids.append(i[1])
-
-    def show_halogen(self):
-        """Visualizes halogen bonds."""
-        grp = self.getPseudoBondGroup("HalogenBonds-%i" % self.tid, associateWith=[self.model])
-        grp.lineWidth = 3
-        for i in self.plcomplex.halogen_bonds:
-            b = grp.newPseudoBond(self.atoms[i[0]], self.atoms[i[1]])
-            b.color = self.colorbyname('turquoise')
-
-            self.bs_res_ids.append(i.acc_id)
-
-    def show_stacking(self):
-        """Visualizes pi-stacking interactions."""
-        grp = self.getPseudoBondGroup("pi-Stacking-%i" % self.tid, associateWith=[self.model])
-        grp.lineWidth = 3
-        grp.lineType = self.chimera.Dash
-        for i, stack in enumerate(self.plcomplex.pistacking):
-
-            m = self.model
-            r = m.newResidue("pseudoatoms", " ", 1, " ")
-            centroid_prot = m.newAtom("CENTROID", self.chimera.Element("CENTROID"))
-            x, y, z = stack.proteinring_center
-            centroid_prot.setCoord(self.chimera.Coord(x, y, z))
-            r.addAtom(centroid_prot)
-
-            centroid_lig = m.newAtom("CENTROID", self.chimera.Element("CENTROID"))
-            x, y, z = stack.ligandring_center
-            centroid_lig.setCoord(self.chimera.Coord(x, y, z))
-            r.addAtom(centroid_lig)
-
-            b = grp.newPseudoBond(centroid_lig, centroid_prot)
-            b.color = self.colorbyname('forest green')
-
-            self.bs_res_ids += stack.proteinring_atoms
-
-    def show_cationpi(self):
-        """Visualizes cation-pi interactions"""
-        grp = self.getPseudoBondGroup("Cation-Pi-%i" % self.tid, associateWith=[self.model])
-        grp.lineWidth = 3
-        grp.lineType = self.chimera.Dash
-        for i, cat in enumerate(self.plcomplex.pication):
-
-            m = self.model
-            r = m.newResidue("pseudoatoms", " ", 1, " ")
-            chargecenter = m.newAtom("CHARGE", self.chimera.Element("CHARGE"))
-            x, y, z = cat.charge_center
-            chargecenter.setCoord(self.chimera.Coord(x, y, z))
-            r.addAtom(chargecenter)
-
-            centroid = m.newAtom("CENTROID", self.chimera.Element("CENTROID"))
-            x, y, z = cat.ring_center
-            centroid.setCoord(self.chimera.Coord(x, y, z))
-            r.addAtom(centroid)
-
-            b = grp.newPseudoBond(centroid, chargecenter)
-            b.color = self.colorbyname('orange')
-
-            if cat.protcharged:
-                self.bs_res_ids += cat.charge_atoms
-            else:
-                self.bs_res_ids += cat.ring_atoms
-
-    def show_sbridges(self):
-        """Visualizes salt bridges."""
-        # Salt Bridges
-        grp = self.getPseudoBondGroup("Salt Bridges-%i" % self.tid, associateWith=[self.model])
-        grp.lineWidth = 3
-        grp.lineType = self.chimera.Dash
-        for i, sbridge in enumerate(self.plcomplex.saltbridges):
-
-            m = self.model
-            r = m.newResidue("pseudoatoms", " ", 1, " ")
-            chargecenter1 = m.newAtom("CHARGE", self.chimera.Element("CHARGE"))
-            x, y, z = sbridge.positive_center
-            chargecenter1.setCoord(self.chimera.Coord(x, y, z))
-            r.addAtom(chargecenter1)
-
-            chargecenter2 = m.newAtom("CHARGE", self.chimera.Element("CHARGE"))
-            x, y, z = sbridge.negative_center
-            chargecenter2.setCoord(self.chimera.Coord(x, y, z))
-            r.addAtom(chargecenter2)
-
-            b = grp.newPseudoBond(chargecenter1, chargecenter2)
-            b.color = self.colorbyname('yellow')
-
-            if sbridge.protispos:
-                self.bs_res_ids += sbridge.positive_atoms
-            else:
-                self.bs_res_ids += sbridge.negative_atoms
-
-    def show_wbridges(self):
-        """Visualizes water bridges"""
-        grp = self.getPseudoBondGroup("Water Bridges-%i" % self.tid, associateWith=[self.model])
-        grp.lineWidth = 3
-        for i, wbridge in enumerate(self.plcomplex.waterbridges):
-            c = grp.newPseudoBond(self.atoms[wbridge.water_id], self.atoms[wbridge.acc_id])
-            c.color = self.colorbyname('cornflower blue')
-            self.water_ids.append(wbridge.water_id)
-            b = grp.newPseudoBond(self.atoms[wbridge.don_id], self.atoms[wbridge.water_id])
-            b.color = self.colorbyname('cornflower blue')
-            self.water_ids.append(wbridge.water_id)
-            if wbridge.protisdon:
-                self.bs_res_ids.append(wbridge.don_id)
-            else:
-                self.bs_res_ids.append(wbridge.acc_id)
-
-    def show_metal(self):
-        """Visualizes metal coordination."""
-        grp = self.getPseudoBondGroup("Metal Coordination-%i" % self.tid, associateWith=[self.model])
-        grp.lineWidth = 3
-        for i, metal in enumerate(self.plcomplex.metal_complexes):
-            c = grp.newPseudoBond(self.atoms[metal.metal_id], self.atoms[metal.target_id])
-            c.color = self.colorbyname('magenta')
-
-            if metal.location == 'water':
-                self.water_ids.append(metal.target_id)
-
-            if metal.location.startswith('protein'):
-                self.bs_res_ids.append(metal.target_id)
-
-    def cleanup(self):
-        """Clean up the visualization."""
-
-        if not len(self.water_ids) == 0:
-            # Hide all non-interacting water molecules
-            water_selection = []
-            for wid in self.water_ids:
-                water_selection.append('serialNumber=%i' % wid)
-            self.rc("~display :HOH")
-            self.rc("display :@/%s" % " or ".join(water_selection))
-
-        # Show all interacting binding site residues
-        self.rc("~display #%i & ~:/isHet" % self.model_dict[self.plipname])
-        self.rc("display :%s" % ",".join([str(self.atoms[bsid].residue.id) for bsid in self.bs_res_ids]))
-        self.rc("color lightblue :HOH")
-
-    def zoom_to_ligand(self):
-        """Centers the view on the ligand and its binding site residues."""
-        self.rc("center #%i & :%s" % (self.model_dict[self.plipname], self.hetid))
-
-    def refinements(self):
-        """Details for the visualization."""
-        self.rc("setattr a color gray @CENTROID")
-        self.rc("setattr a radius 0.3 @CENTROID")
-        self.rc("represent sphere @CENTROID")
-        self.rc("setattr a color orange @CHARGE")
-        self.rc("setattr a radius 0.4 @CHARGE")
-        self.rc("represent sphere @CHARGE")
-        self.rc("display :pseudoatoms")
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