region_block.cpp
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Created: Thu, Jun 27, 01:12

region_block.cpp
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	/* ----------------------------------------------------------------------
	LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator
	http://lammps.sandia.gov, Sandia National Laboratories
	Steve Plimpton, sjplimp@sandia.gov

	Copyright (2003) Sandia Corporation. Under the terms of Contract
	DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains
	certain rights in this software. This software is distributed under
	the GNU General Public License.

	See the README file in the top-level LAMMPS directory.
	------------------------------------------------------------------------- */

	#include <stdlib.h>
	#include <string.h>
	#include "region_block.h"
	#include "force.h"
	#include "domain.h"
	#include "math_extra.h"
	#include "error.h"

	using namespace LAMMPS_NS;

	#define BIG 1.0e20

	/* ---------------------------------------------------------------------- */

	RegBlock::RegBlock(LAMMPS lmp, int narg, char *arg) : Region(lmp, narg, arg)
	{
	options(narg-8,&arg[8]);

	if (strcmp(arg[2],"INF") == 0 \|\| strcmp(arg[2],"EDGE") == 0) {
	if (domain->box_exist == 0)
	error->all(FLERR,"Cannot use region INF or EDGE when box does not exist");
	if (strcmp(arg[2],"INF") == 0) xlo = -BIG;
	else if (domain->triclinic == 0) xlo = domain->boxlo[0];
	else xlo = domain->boxlo_bound[0];
	} else xlo = xscale*force->numeric(FLERR,arg[2]);

	if (strcmp(arg[3],"INF") == 0 \|\| strcmp(arg[3],"EDGE") == 0) {
	if (domain->box_exist == 0)
	error->all(FLERR,"Cannot use region INF or EDGE when box does not exist");
	if (strcmp(arg[3],"INF") == 0) xhi = BIG;
	else if (domain->triclinic == 0) xhi = domain->boxhi[0];
	else xhi = domain->boxhi_bound[0];
	} else xhi = xscale*force->numeric(FLERR,arg[3]);

	if (strcmp(arg[4],"INF") == 0 \|\| strcmp(arg[4],"EDGE") == 0) {
	if (domain->box_exist == 0)
	error->all(FLERR,"Cannot use region INF or EDGE when box does not exist");
	if (strcmp(arg[4],"INF") == 0) ylo = -BIG;
	else if (domain->triclinic == 0) ylo = domain->boxlo[1];
	else ylo = domain->boxlo_bound[1];
	} else ylo = yscale*force->numeric(FLERR,arg[4]);

	if (strcmp(arg[5],"INF") == 0 \|\| strcmp(arg[5],"EDGE") == 0) {
	if (domain->box_exist == 0)
	error->all(FLERR,"Cannot use region INF or EDGE when box does not exist");
	if (strcmp(arg[5],"INF") == 0) yhi = BIG;
	else if (domain->triclinic == 0) yhi = domain->boxhi[1];
	else yhi = domain->boxhi_bound[1];
	} else yhi = yscale*force->numeric(FLERR,arg[5]);

	if (strcmp(arg[6],"INF") == 0 \|\| strcmp(arg[6],"EDGE") == 0) {
	if (domain->box_exist == 0)
	error->all(FLERR,"Cannot use region INF or EDGE when box does not exist");
	if (strcmp(arg[6],"INF") == 0) zlo = -BIG;
	else if (domain->triclinic == 0) zlo = domain->boxlo[2];
	else zlo = domain->boxlo_bound[2];
	} else zlo = zscale*force->numeric(FLERR,arg[6]);

	if (strcmp(arg[7],"INF") == 0 \|\| strcmp(arg[7],"EDGE") == 0) {
	if (domain->box_exist == 0)
	error->all(FLERR,"Cannot use region INF or EDGE when box does not exist");
	if (strcmp(arg[7],"INF") == 0) zhi = BIG;
	else if (domain->triclinic == 0) zhi = domain->boxhi[2];
	else zhi = domain->boxhi_bound[2];
	} else zhi = zscale*force->numeric(FLERR,arg[7]);

	// error check

	if (xlo > xhi \|\| ylo > yhi \|\| zlo > zhi)
	error->all(FLERR,"Illegal region block command");

	// extent of block

	if (interior) {
	bboxflag = 1;
	extent_xlo = xlo;
	extent_xhi = xhi;
	extent_ylo = ylo;
	extent_yhi = yhi;
	extent_zlo = zlo;
	extent_zhi = zhi;
	} else bboxflag = 0;

	// particle could be close to all 6 planes
	// particle can only touch 3 planes

	cmax = 6;
	contact = new Contact[cmax];
	if (interior) tmax = 3;
	else tmax = 1;

	// open face data structs

	face[0][0] = -1.0;
	face[0][1] = 0.0;
	face[0][2] = 0.0;
	face[1][0] = 1.0;
	face[1][1] = 0.0;
	face[1][2] = 0.0;
	face[2][0] = 0.0;
	face[2][1] = -1.0;
	face[2][2] = 0.0;
	face[3][0] = 0.0;
	face[3][1] = 1.0;
	face[3][2] = 0.0;
	face[4][0] = 0.0;
	face[4][1] = 0.0;
	face[4][2] = -1.0;
	face[5][0] = 0.0;
	face[5][1] = 0.0;
	face[5][2] = 1.0;

	// face[0]

	corners[0][0][0] = xlo;
	corners[0][0][1] = ylo;
	corners[0][0][2] = zlo;
	corners[0][1][0] = xlo;
	corners[0][1][1] = ylo;
	corners[0][1][2] = zhi;
	corners[0][2][0] = xlo;
	corners[0][2][1] = yhi;
	corners[0][2][2] = zhi;
	corners[0][3][0] = xlo;
	corners[0][3][1] = yhi;
	corners[0][3][2] = zlo;

	// face[1]

	corners[1][0][0] = xhi;
	corners[1][0][1] = ylo;
	corners[1][0][2] = zlo;
	corners[1][1][0] = xhi;
	corners[1][1][1] = ylo;
	corners[1][1][2] = zhi;
	corners[1][2][0] = xhi;
	corners[1][2][1] = yhi;
	corners[1][2][2] = zhi;
	corners[1][3][0] = xhi;
	corners[1][3][1] = yhi;
	corners[1][3][2] = zlo;

	// face[2]

	MathExtra::copy3(corners[2][0],corners[0][0]);
	MathExtra::copy3(corners[2][1],corners[1][0]);
	MathExtra::copy3(corners[2][2],corners[1][1]);
	MathExtra::copy3(corners[2][3],corners[0][1]);

	// face[3]

	MathExtra::copy3(corners[3][0],corners[0][3]);
	MathExtra::copy3(corners[3][1],corners[0][2]);
	MathExtra::copy3(corners[3][2],corners[1][2]);
	MathExtra::copy3(corners[3][3],corners[1][3]);

	// face[4]

	MathExtra::copy3(corners[4][0],corners[0][0]);
	MathExtra::copy3(corners[4][1],corners[0][3]);
	MathExtra::copy3(corners[4][2],corners[1][3]);
	MathExtra::copy3(corners[4][3],corners[1][0]);

	// face[5]

	MathExtra::copy3(corners[5][0],corners[0][1]);
	MathExtra::copy3(corners[5][1],corners[1][1]);
	MathExtra::copy3(corners[5][2],corners[1][2]);
	MathExtra::copy3(corners[5][3],corners[0][2]);
	}

	/* ---------------------------------------------------------------------- */

	RegBlock::~RegBlock()
	{
	if (copymode) return;

	delete [] contact;
	}

	/* ----------------------------------------------------------------------
	inside = 1 if x,y,z is inside or on surface
	inside = 0 if x,y,z is outside and not on surface
	------------------------------------------------------------------------- */

	int RegBlock::inside(double x, double y, double z)
	{
	if (x >= xlo && x <= xhi && y >= ylo && y <= yhi && z >= zlo && z <= zhi)
	return 1;
	return 0;
	}

	/* ----------------------------------------------------------------------
	contact if 0 <= x < cutoff from one or more inner surfaces of block
	can be one contact for each of 6 faces
	no contact if outside (possible if called from union/intersect)
	delxyz = vector from nearest point on block to x
	------------------------------------------------------------------------- */

	int RegBlock::surface_interior(double *x, double cutoff)
	{
	double delta;

	// x is exterior to block

	if (x[0] < xlo \|\| x[0] > xhi \|\| x[1] < ylo \|\| x[1] > yhi \|\|
	x[2] < zlo \|\| x[2] > zhi) return 0;

	// x is interior to block or on its surface

	int n = 0;

	delta = x[0] - xlo;
	if (delta < cutoff && !open_faces[0]) {
	contact[n].r = delta;
	contact[n].delx = delta;
	contact[n].dely = contact[n].delz = 0.0;
	contact[n].radius = 0;
	contact[n].iwall = 0;
	n++;
	}
	delta = xhi - x[0];
	if (delta < cutoff && !open_faces[1]) {
	contact[n].r = delta;
	contact[n].delx = -delta;
	contact[n].dely = contact[n].delz = 0.0;
	contact[n].radius = 0;
	contact[n].iwall = 1;
	n++;
	}

	delta = x[1] - ylo;
	if (delta < cutoff && !open_faces[2]) {
	contact[n].r = delta;
	contact[n].dely = delta;
	contact[n].delx = contact[n].delz = 0.0;
	contact[n].radius = 0;
	contact[n].iwall = 2;
	n++;
	}
	delta = yhi - x[1];
	if (delta < cutoff && !open_faces[3]) {
	contact[n].r = delta;
	contact[n].dely = -delta;
	contact[n].delx = contact[n].delz = 0.0;
	contact[n].radius = 0;
	contact[n].iwall = 3;
	n++;
	}

	delta = x[2] - zlo;
	if (delta < cutoff && !open_faces[4]) {
	contact[n].r = delta;
	contact[n].delz = delta;
	contact[n].delx = contact[n].dely = 0.0;
	contact[n].radius = 0;
	contact[n].iwall = 4;
	n++;
	}
	delta = zhi - x[2];
	if (delta < cutoff && !open_faces[5]) {
	contact[n].r = delta;
	contact[n].delz = -delta;
	contact[n].delx = contact[n].dely = 0.0;
	contact[n].radius = 0;
	contact[n].iwall = 5;
	n++;
	}

	return n;
	}

	/* ----------------------------------------------------------------------
	one contact if 0 <= x < cutoff from outer surface of block
	no contact if inside (possible if called from union/intersect)
	delxyz = vector from nearest point on block to x
	------------------------------------------------------------------------- */

	int RegBlock::surface_exterior(double *x, double cutoff)
	{
	double xp,yp,zp;
	double xc,yc,zc,dist,mindist;

	// x is far enough from block that there is no contact
	// x is interior to block

	if (x[0] <= xlo-cutoff \|\| x[0] >= xhi+cutoff \|\|
	x[1] <= ylo-cutoff \|\| x[1] >= yhi+cutoff \|\|
	x[2] <= zlo-cutoff \|\| x[2] >= zhi+cutoff) return 0;
	if (x[0] > xlo && x[0] < xhi && x[1] > ylo && x[1] < yhi &&
	x[2] > zlo && x[2] < zhi) return 0;

	// x is exterior to block or on its surface
	// xp,yp,zp = point on surface of block that x is closest to
	// could be edge or corner pt of block
	// do not add contact point if r >= cutoff

	if (!openflag){
	if (x[0] < xlo) xp = xlo;
	else if (x[0] > xhi) xp = xhi;
	else xp = x[0];
	if (x[1] < ylo) yp = ylo;
	else if (x[1] > yhi) yp = yhi;
	else yp = x[1];
	if (x[2] < zlo) zp = zlo;
	else if (x[2] > zhi) zp = zhi;
	else zp = x[2];
	}
	else{
	mindist = BIG;
	for (int i = 0; i < 6; i++){
	if (open_faces[i]) continue;
	dist = find_closest_point(i,x,xc,yc,zc);
	if (dist < mindist){
	xp = xc;
	yp = yc;
	zp = zc;
	mindist = dist;
	}
	}
	}

	add_contact(0,x,xp,yp,zp);
	contact[0].iwall = 0;
	if (contact[0].r < cutoff) return 1;
	return 0;
	}

	/*------------------------------------------------------------------------
	return distance to closest point on surface I of block region
	store closest point in xc,yc,zc
	--------------------------------------------------------------------------*/

	double RegBlock::find_closest_point(int i, double *x,
	double &xc, double &yc, double &zc)
	{
	double dot,d2,d2min;
	double xr[3],xproj[3],p[3];

	xr[0] = x[0] - corners[i][0][0];
	xr[1] = x[1] - corners[i][0][1];
	xr[2] = x[2] - corners[i][0][2];
	dot = face[i][0]xr[0] + face[i][1]xr[1] + face[i][2]*xr[2];
	xproj[0] = xr[0] - dot*face[i][0];
	xproj[1] = xr[1] - dot*face[i][1];
	xproj[2] = xr[2] - dot*face[i][2];

	d2min = BIG;

	// check if point projects inside of face

	if (inside_face(xproj, i)){
	d2 = d2min = dot*dot;
	xc = xproj[0] + corners[i][0][0];
	yc = xproj[1] + corners[i][0][1];
	zc = xproj[2] + corners[i][0][2];

	// check each edge

	} else {
	point_on_line_segment(corners[i][0],corners[i][1],x,p);
	d2 = (p[0]-x[0])(p[0]-x[0]) + (p[1]-x[1])(p[1]-x[1]) +
	(p[2]-x[2])*(p[2]-x[2]);
	if (d2 < d2min) {
	d2min = d2;
	xc = p[0];
	yc = p[1];
	zc = p[2];
	}

	point_on_line_segment(corners[i][1],corners[i][2],x,p);
	d2 = (p[0]-x[0])(p[0]-x[0]) + (p[1]-x[1])(p[1]-x[1]) +
	(p[2]-x[2])*(p[2]-x[2]);
	if (d2 < d2min) {
	d2min = d2;
	xc = p[0];
	yc = p[1];
	zc = p[2];
	}

	point_on_line_segment(corners[i][2],corners[i][3],x,p);
	d2 = (p[0]-x[0])(p[0]-x[0]) + (p[1]-x[1])(p[1]-x[1]) +
	(p[2]-x[2])*(p[2]-x[2]);
	if (d2 < d2min) {
	d2min = d2;
	xc = p[0];
	yc = p[1];
	zc = p[2];
	}

	point_on_line_segment(corners[i][3],corners[i][0],x,p);
	d2 = (p[0]-x[0])(p[0]-x[0]) + (p[1]-x[1])(p[1]-x[1]) +
	(p[2]-x[2])*(p[2]-x[2]);
	if (d2 < d2min) {
	d2min = d2;
	xc = p[0];
	yc = p[1];
	zc = p[2];
	}
	}

	return d2min;
	}

	/*------------------------------------------------------------------------
	determine if projected point is inside given face of the block
	--------------------------------------------------------------------------*/

	int RegBlock::inside_face(double *xproj, int iface)
	{
	if (iface < 2) {
	if (xproj[1] > 0 && (xproj[1] < yhi-ylo) &&
	xproj[2] > 0 && (xproj[2] < zhi-zlo)) return 1;
	} else if (iface < 4) {
	if (xproj[0] > 0 && (xproj[0] < (xhi-xlo)) &&
	xproj[2] > 0 && (xproj[2] < (zhi-zlo))) return 1;
	} else {
	if (xproj[0] > 0 && xproj[0] < (xhi-xlo) &&
	xproj[1] > 0 && xproj[1] < (yhi-ylo)) return 1;
	}

	return 0;
	}

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