generate_shapes.F90
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!
! This file is part of SACAMOS, State of the Art CAble MOdels in Spice.
! It was developed by the University of Nottingham and the Netherlands Aerospace
! Centre (NLR) for ESA under contract number 4000112765/14/NL/HK.
!
! Copyright (C) 2016-2017 University of Nottingham
!
! SACAMOS is free software: you can redistribute it and/or modify it under the
! terms of the GNU General Public License as published by the Free Software
! Foundation, either version 3 of the License, or (at your option) any later
! version.
!
! SACAMOS is distributed in the hope that it will be useful, but
! WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
! or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
! for more details.
!
! A copy of the GNU General Public License version 3 can be found in the
! file GNU_GPL_v3 in the root or at <http://www.gnu.org/licenses/>.
!
! SACAMOS uses the EISPACK library (in /SRC/EISPACK). EISPACK is subject to
! the GNU Lesser General Public License. A copy of the GNU Lesser General Public
! License version can be found in the file GNU_LGPL in the root of EISPACK
! (/SRC/EISPACK ) or at <http://www.gnu.org/licenses/>.
!
! The University of Nottingham can be contacted at: ggiemr@nottingham.ac.uk
!
! FILE CONTENTS:
!SUBROUTINE generate_circle_points
!SUBROUTINE generate_rectangle_points
!SUBROUTINE generate_Dshape_points
!SUBROUTINE generate_arc_points
!SUBROUTINE generate_semicircle_points
!
!SUBROUTINE generate_circle_points
!
! NAME
! SUBROUTINE generate_circle_points
!
! DESCRIPTION
! write a circle with specified x,y centre and radius to file for plotting with gnuplot
!
!
! COMMENTS
! return the extent of the plotting area...
!
! HISTORY
!
! started 10/05/2013 CJS
!
!
SUBROUTINE generate_circle_points(npts,shape_x,shape_y,x,y,r)
USE type_specifications
USE constants
IMPLICIT NONE
integer,intent(OUT) :: npts
real(dp),allocatable,intent(INOUT) :: shape_x(:)
real(dp),allocatable,intent(INOUT) :: shape_y(:)
real(dp),intent(IN) :: x,y,r ! centre x and y coordinates and radius
! local variables
real(dp) x1,y1
real(dp) x2,y2
real(dp) x3,y3
real(dp) x4,y4
integer :: loop
! START
! write the circle as four arcs
x1=x
y1=y+r
x2=x-r
y2=y
x3=x
y3=y-r
x4=x+r
y4=y
do loop=1,2 ! first pass to count the points, second pass to set the point coordinates
npts=0
CALL generate_arc_points(npts,shape_x,shape_y,loop,x,y,x1,y1,x2,y2)
CALL generate_arc_points(npts,shape_x,shape_y,loop,x,y,x2,y2,x3,y3)
CALL generate_arc_points(npts,shape_x,shape_y,loop,x,y,x3,y3,x4,y4)
CALL generate_arc_points(npts,shape_x,shape_y,loop,x,y,x4,y4,x1,y1)
if (loop.EQ.1) then
ALLOCATE( shape_x(1:npts) )
ALLOCATE( shape_y(1:npts) )
end if
end do ! next loop
RETURN
END SUBROUTINE generate_circle_points
!
!SUBROUTINE generate_rectangle_points
!
! NAME
! SUBROUTINE generate_rectangle_points
!
! DESCRIPTION
! write a rectangle with specified x,y centre, width, height and angle to file for plotting with gnuplot
!
!
! COMMENTS
! return the extent of the plotting area...
!
! HISTORY
!
! started 23/9/2016 CJS
!
!
SUBROUTINE generate_rectangle_points(npts,shape_x,shape_y,x,y,theta,w,h)
USE type_specifications
USE constants
IMPLICIT NONE
integer,intent(OUT) :: npts
real(dp),allocatable,intent(INOUT) :: shape_x(:)
real(dp),allocatable,intent(INOUT) :: shape_y(:)
real(dp),intent(IN) :: x,y,w,h,theta ! centre x and y coordinates, width, height and angle of rectangle
! local variables
real(dp) x1,y1
real(dp) x2,y2
real(dp) x3,y3
real(dp) x4,y4
real(dp) xt,yt
integer :: loop
! START
! first point
xt=w/2d0
yt=h/2d0
! rotate then translate, note save the first point
x1=x+xt*cos(theta)-yt*sin(theta)
y1=y+xt*sin(theta)+yt*cos(theta)
! second point
xt=-w/2d0
yt=h/2d0
! rotate then translate
x2=x+xt*cos(theta)-yt*sin(theta)
y2=y+xt*sin(theta)+yt*cos(theta)
! third point
xt=-w/2d0
yt=-h/2d0
! rotate then translate
x3=x+xt*cos(theta)-yt*sin(theta)
y3=y+xt*sin(theta)+yt*cos(theta)
! fourth point
xt=w/2d0
yt=-h/2d0
! rotate then translate
x4=x+xt*cos(theta)-yt*sin(theta)
y4=y+xt*sin(theta)+yt*cos(theta)
do loop=1,2 ! first pass to count the points, second pass to set the point coordinates
npts=0
CALL generate_line_points(npts,shape_x,shape_y,loop,x1,y1,x2,y2)
CALL generate_line_points(npts,shape_x,shape_y,loop,x2,y2,x3,y3)
CALL generate_line_points(npts,shape_x,shape_y,loop,x3,y3,x4,y4)
CALL generate_line_points(npts,shape_x,shape_y,loop,x4,y4,x1,y1)
if (loop.EQ.1) then
ALLOCATE( shape_x(1:npts) )
ALLOCATE( shape_y(1:npts) )
end if
end do ! next loop
RETURN
END SUBROUTINE generate_rectangle_points
!
! NAME
! SUBROUTINE generate_Dshape_points
!
! DESCRIPTION
! write a Dshape with specified x,y centre, width1, width2, conductor separation, shell offset and angle to file for plotting with gnuplot
!
!
! COMMENTS
! Also return the extent of the plotting area
!
! HISTORY
!
! started 15/11/2016 CJS
!
!
SUBROUTINE generate_Dshape_points(npts,shape_x,shape_y,x,y,w1,w2,s,r,theta)
USE type_specifications
USE constants
IMPLICIT NONE
integer,intent(OUT) :: npts
real(dp),allocatable,intent(INOUT) :: shape_x(:)
real(dp),allocatable,intent(INOUT) :: shape_y(:)
real(dp),intent(IN) :: x,y,w1,w2,s,r,theta ! centre x and y coordinates, width1, width2, separation of wire rows, offset of D shapeand angle
! local variables
real(dp) x1,y1
real(dp) x2,y2
real(dp) x3,y3
real(dp) x4,y4
real(dp) x5,y5
real(dp) x6,y6
real(dp) x7,y7
real(dp) x8,y8
real(dp) x9,y9
real(dp) x10,y10
real(dp) x11,y11
real(dp) x12,y12
real(dp) xt,yt
real(dp) vx,vy
real(dp) voxl,voyl
real(dp) norm
integer :: loop
! START
! vector from top left conductor to bottem left conductor
vx=w1-w2
vy=-2d0*s
! perpendicular vector to -x edge
norm=sqrt(vx*vx+vy*vy)
voxl=vy*r/norm
voyl=-vx*r/norm
! POINT 1 ! top right
xt=w1
yt=s+r
x1=x+xt*cos(theta)-yt*sin(theta)
y1=y+xt*sin(theta)+yt*cos(theta)
! POINT 2 ! top left
xt=-w1
yt=s+r
x2=x+xt*cos(theta)-yt*sin(theta)
y2=y+xt*sin(theta)+yt*cos(theta)
! POINT 3 ! top left centre
xt=-w1
yt=s
x3=x+xt*cos(theta)-yt*sin(theta)
y3=y+xt*sin(theta)+yt*cos(theta)
! POINT 4 ! top left edge
xt=-w1+voxl
yt=s+voyl
x4=x+xt*cos(theta)-yt*sin(theta)
y4=y+xt*sin(theta)+yt*cos(theta)
! POINT 5 ! bottom left edge
xt=-w2+voxl
yt=-s+voyl
x5=x+xt*cos(theta)-yt*sin(theta)
y5=y+xt*sin(theta)+yt*cos(theta)
! POINT 6 ! bottom left centre
xt=-w2
yt=-s
x6=x+xt*cos(theta)-yt*sin(theta)
y6=y+xt*sin(theta)+yt*cos(theta)
! POINT 7 ! bottom left
xt=-w2
yt=-(s+r)
x7=x+xt*cos(theta)-yt*sin(theta)
y7=y+xt*sin(theta)+yt*cos(theta)
! POINT 8 ! bottom right
xt=w2
yt=-(s+r)
x8=x+xt*cos(theta)-yt*sin(theta)
y8=y+xt*sin(theta)+yt*cos(theta)
! POINT 9 ! bottom right centre
xt=w2
yt=-s
x9=x+xt*cos(theta)-yt*sin(theta)
y9=y+xt*sin(theta)+yt*cos(theta)
! POINT 10 ! bottom right edge
xt=w2-voxl
yt=-s+voyl
x10=x+xt*cos(theta)-yt*sin(theta)
y10=y+xt*sin(theta)+yt*cos(theta)
! POINT 11 ! top right edge
xt=w1-voxl
yt=s+voyl
x11=x+xt*cos(theta)-yt*sin(theta)
y11=y+xt*sin(theta)+yt*cos(theta)
! POINT 12 ! top right centre
xt=w1
yt=s
x12=x+xt*cos(theta)-yt*sin(theta)
y12=y+xt*sin(theta)+yt*cos(theta)
do loop=1,2 ! first pass to count the points, second pass to set the point coordinates
npts=0
CALL generate_line_points(npts,shape_x,shape_y,loop,x1,y1,x2,y2)
CALL generate_arc_points(npts,shape_x,shape_y,loop,x3,y3,x2,y2,x4,y4)
CALL generate_line_points(npts,shape_x,shape_y,loop,x4,y4,x5,y5)
CALL generate_arc_points(npts,shape_x,shape_y,loop,x6,y6,x5,y5,x7,y7)
CALL generate_line_points(npts,shape_x,shape_y,loop,x7,y7,x8,y8)
CALL generate_arc_points(npts,shape_x,shape_y,loop,x9,y9,x8,y8,x10,y10)
CALL generate_line_points(npts,shape_x,shape_y,loop,x10,y10,x11,y11)
CALL generate_arc_points(npts,shape_x,shape_y,loop,x12,y12,x11,y11,x1,y1)
if (loop.EQ.1) then
ALLOCATE( shape_x(1:npts) )
ALLOCATE( shape_y(1:npts) )
end if
end do ! next loop
RETURN
END SUBROUTINE generate_Dshape_points
!
! NAME
! SUBROUTINE generate_arc_points
!
! DESCRIPTION
! generate a set of points describing an arc
! The arc is always in an anticlockwise direction.
!
! COMMENTS
!
!
! HISTORY
!
! started 20/4/2017 CJS
!
!
SUBROUTINE generate_arc_points(npts,shape_x,shape_y,loop,xc,yc,x1,y1,x2,y2)
USE type_specifications
USE constants
IMPLICIT NONE
integer,intent(OUT) :: npts ! point count
real(dp),allocatable,intent(INOUT) :: shape_x(:) ! x coordinate value list
real(dp),allocatable,intent(INOUT) :: shape_y(:) ! y coordinate value list
integer,intent(IN) :: loop ! loop indicator. If loop=1, just count the points, if loop=2 set the coordinate values
real(dp),intent(IN) :: xc,yc ! centre coordinates
real(dp),intent(IN) :: x1,y1 ! arc end 1 coordinates
real(dp),intent(IN) :: x2,y2 ! arc end 2 coordinates
! local variables
real(dp) :: r ! arc radius
real(dp) :: x,y ! point coordinates
real(dp) :: tmin ! minimum angle
real(dp) :: tmax ! maximum angle
real(dp) :: t ! angle
real(dp) :: dt ! angle step
integer :: tloop ! theta loop variable
integer,parameter :: nt=40 ! number of points in an arc
! START
! calculate the radius
r=sqrt((x1-xc)**2+(y1-yc)**2)
! calculate the angle of the first point from the x axis
tmin=atan2(y1-yc,x1-xc)
! calculate the angle of the last point from the x axis
tmax=atan2(y2-yc,x2-xc)
! ensure that tmax is greater than tmin i.e. the arc is in an anticlockwise direction
if (tmax.LT.tmin) tmax=tmax+2d0*pi
dt=(tmax-tmin)/dble(nt)
! first point of the arc
npts=npts+1
if (loop.EQ.2) then
shape_x(npts)=x1
shape_y(npts)=y1
end if
! write the interior points of the arc
! loop over theta
do tloop=1,nt-1
t=tmin+dt*dble(tloop)
x=xc+r*cos(t)
y=yc+r*sin(t)
npts=npts+1
if (loop.EQ.2) then
shape_x(npts)=x
shape_y(npts)=y
end if
end do
npts=npts+1
if (loop.EQ.2) then
shape_x(npts)=x2
shape_y(npts)=y2
end if
RETURN
END SUBROUTINE generate_arc_points
!
! NAME
! SUBROUTINE generate_line_points
!
! DESCRIPTION
! generate a set of points describing a line
!
!
! COMMENTS
!
!
! HISTORY
!
! started 20/4/2017 CJS
!
!
SUBROUTINE generate_line_points(npts,shape_x,shape_y,loop,x1,y1,x2,y2)
USE type_specifications
USE constants
IMPLICIT NONE
integer,intent(OUT) :: npts ! point count
real(dp),allocatable,intent(INOUT) :: shape_x(:) ! x coordinate value list
real(dp),allocatable,intent(INOUT) :: shape_y(:) ! y coordinate value list
integer,intent(IN) :: loop ! loop indicator. If loop=1, just count the points, if loop=2 set the coordinate values
real(dp),intent(IN) :: x1,y1 ! line end 1 coordinates
real(dp),intent(IN) :: x2,y2 ! line end 2 coordinates
! local variables
real(dp) :: x,y ! point coordinates
real(dp) :: t ! normalised distance along line
integer :: tloop ! loop variable
integer,parameter :: nt=16 ! number of points in a line
! START
! first point of the line
npts=npts+1
if (loop.EQ.2) then
shape_x(npts)=x1
shape_y(npts)=y1
end if
! write the interior points of the line
! loop over theta
do tloop=1,nt-1
t=dble(tloop)/dble(nt)
x=x1+(x2-x1)*t
y=y1+(y2-y1)*t
npts=npts+1
if (loop.EQ.2) then
shape_x(npts)=x
shape_y(npts)=y
end if
end do
npts=npts+1
if (loop.EQ.2) then
shape_x(npts)=x2
shape_y(npts)=y2
end if
RETURN
END SUBROUTINE generate_line_points
!
!SUBROUTINE generate_semicircle_points
!
! NAME
! SUBROUTINE generate_semicircle_points
!
! DESCRIPTION
! write a semicircle with specified x,y centre and radius to file for plotting with gnuplot
! the semicircle is in the region y>=ycentre
!
!
! COMMENTS
! return the extent of the plotting area...
!
! HISTORY
!
! started 10/05/2013 CJS
!
!
SUBROUTINE generate_semicircle_points(npts,shape_x,shape_y,x,y,r)
USE type_specifications
USE constants
IMPLICIT NONE
integer,intent(OUT) :: npts
real(dp),allocatable,intent(INOUT) :: shape_x(:)
real(dp),allocatable,intent(INOUT) :: shape_y(:)
real(dp),intent(IN) :: x,y,r ! centre x and y coordinates and radius
! local variables
real(dp) x1,y1
real(dp) x2,y2
real(dp) x3,y3
integer :: loop
! START
! write the semicircle as two arcs and a straight line to close the shape
! the straght line is formed by the first and last points of the arc
x1=x+r
y1=y
x2=x
y2=y+r
x3=x-r
y3=y
do loop=1,2 ! first pass to count the points, second pass to set the point coordinates
npts=0
CALL generate_arc_points(npts,shape_x,shape_y,loop,x,y,x1,y1,x2,y2)
CALL generate_arc_points(npts,shape_x,shape_y,loop,x,y,x2,y2,x3,y3)
CALL generate_line_points(npts,shape_x,shape_y,loop,x3,y3,x1,y1)
if (loop.EQ.1) then
ALLOCATE( shape_x(1:npts) )
ALLOCATE( shape_y(1:npts) )
end if
end do ! next loop
RETURN
END SUBROUTINE generate_semicircle_points