generate_eps

#!/bin/bash

#trignometry
#sin ()
#{
#    echo "scale=5;s($1)" | bc -l
#}
#
#add ()
#{
#    echo "scale=5;$1 + $2" | bc -l
#}
#
#cos ()
#{
#    echo "scale=5;c($1)" | bc -l
#}
#
#tan ()
#{
#    echo "scale=5;s($1)/c($1)" | bc -l
#}


function print_the_help {
  echo "USAGE: $0 -i <PRIM_FILE>  "
  echo "  OPTIONS: "
  echo "            -t,--tag           filename tag (default: view1)"
  exit 
}

FILE_TAG="view15"
INPUT_FILE="../../g4_0000.prim"


POSITIONAL=()
while [[ $# -gt 0 ]]
do
  key="$1"

  case $key in
    -h|--help)
      shift # past argument
      print_the_help
      ;;
    -t|--tag)
      FILE_TAG="$2"
      shift # past argument
      shift # past value
      ;;
    -i|--input)
      INPUT_FILE="$2"
      shift # past argument
      shift # past value
      ;;
    *)    # unknown option
      #POSITIONAL+=("$1") # save it in an array for later
      echo "unknown option $1"
      print_the_help
      shift # past argument
      ;;
  esac
done
set -- "${POSITIONAL[@]}" # restore positional parameters

# units are mm

echo "view15 produces a series of slightly rotated XY slices a different z locations. Along beamline"

# slice at z = 2m
# note the offset has to change with sign of the direction to cut in the opposite direction.
#dawncut 0  0  1  10005 ${INPUT_FILE} ${FILE_TAG}b_temp0.prim 
#dawncut 0  0 -1 -1000 ${FILE_TAG}b_temp0.prim  ${FILE_TAG}b.prim
#dawn  ${FILE_TAG}b.prim 
#ps2pdf ${FILE_TAG}b.eps ${FILE_TAG}b_full.pdf
#gs -o ${FILE_TAG}b.pdf -sDEVICE=pdfwrite \
#  -c "[/CropBox [50 175 550 675] /PAGES pdfmark" \
#  -f ${FILE_TAG}b_full.pdf
#pdftoppm ${FILE_TAG}b.pdf ${FILE_TAG}b -png -singlefile -cropbox

echo "done ..."


original_file_tag="${FILE_TAG}"

make_slice(){
  local zpos="$1"
  local tagnum=$(printf "%04d" ${zpos})
  local FILE_TAG="${original_file_tag}a${tagnum}"
  local z1=$(add ${zpos} 100)
  local z2=$(add ${zpos} -100)
  #dawncut 0 0 1 ${z1}1 ${INPUT_FILE} ${FILE_TAG}_temp0.prim 
  #dawncut 0 0 -1 -${z2}0  ${FILE_TAG}_temp0.prim  ${FILE_TAG}.prim
  ../../bin/dawn_tweak -z ${zpos}0 --draw 5
  #cp ${INPUT_FILE} ${FILE_TAG}.prim
  dawncut -1 0 0 0 ${INPUT_FILE} ${FILE_TAG}.prim 
  dawn -d ${FILE_TAG}.prim 
  ps2pdf ${FILE_TAG}.eps ${FILE_TAG}_full.pdf
  gs -o ${FILE_TAG}.pdf -sDEVICE=pdfwrite \
    -c "[/CropBox [50 175 550 675] /PAGES pdfmark" \
    -f ${FILE_TAG}_full.pdf
      pdftoppm ${FILE_TAG}.pdf ${FILE_TAG} -png -singlefile -cropbox
  rm "${FILE_TAG}_temp0.prim"
  rm "${FILE_TAG}.prim"
}

for zzz in $(seq 150 50 2000) ;
do
  make_slice ${zzz} 
done

wait



#dawncut 0  1 0 10 ${INPUT_FILE} ${FILE_TAG}c_temp0.prim 
#dawncut 0 -1 0 0 ${FILE_TAG}c_temp0.prim  ${FILE_TAG}c.prim
#dawn -d ${FILE_TAG}c.prim 
#ps2pdf ${FILE_TAG}c.eps ${FILE_TAG}c_full.pdf
#gs -o ${FILE_TAG}c.pdf -sDEVICE=pdfwrite \
#  -c "[/CropBox [50 175 550 675] /PAGES pdfmark" \
#  -f ${FILE_TAG}c_full.pdf
#pdftoppm ${FILE_TAG}c.pdf ${FILE_TAG}c -png -singlefile -cropbox
#
## slice at z = -1m
#dawncut 0 0 1 -1000 ${INPUT_FILE} ${FILE_TAG}d_temp0.prim 
#dawncut 0 0 -1 1001 ${FILE_TAG}d_temp0.prim  ${FILE_TAG}d.prim
#dawn -d ${FILE_TAG}d.prim 
#ps2pdf ${FILE_TAG}d.eps ${FILE_TAG}d_full.pdf
#gs -o ${FILE_TAG}d.pdf -sDEVICE=pdfwrite \
#  -c "[/CropBox [50 175 550 675] /PAGES pdfmark" \
#  -f ${FILE_TAG}d_full.pdf
#pdftoppm ${FILE_TAG}d.pdf ${FILE_TAG}d -png -singlefile -cropbox
#
## slice at z = -2m
#dawncut 0 0 1 -2000 ${INPUT_FILE} ${FILE_TAG}e_temp0.prim 
#dawncut 0 0 -1 2001 ${FILE_TAG}e_temp0.prim  ${FILE_TAG}e.prim
#dawn -d ${FILE_TAG}e.prim 
#ps2pdf ${FILE_TAG}e.eps ${FILE_TAG}e_full.pdf
#gs -o ${FILE_TAG}e.pdf -sDEVICE=pdfwrite \
#  -c "[/CropBox [50 175 550 675] /PAGES pdfmark" \
#  -f ${FILE_TAG}e_full.pdf
#pdftoppm ${FILE_TAG}e.pdf ${FILE_TAG}e -png -singlefile -cropbox


#https://geant4.kek.jp/~tanaka/DAWN/About_DAWNCUT.html
# % dawncut a b c d input-file [output-file]
#
#       input-file : Source DAWN-format file describing a 3D scene.
#
#       output-file: Output DAWN-format file describing a plane-clipped 
#                    3D scene.  The default output stream is stdout.
#
#       a, b, c, d : Parameters  a, b, c, and d  are double values to
#                    define a clipping plane described with the following 
#                    equation: 
#
#                       ax + by + cz + d = 0. 
#
#                    Vector (a,b,c) defines the normal vector of 
#                    the clipping plane.  
#                    3D scene data in the half space at the front side 
#                    of the clipping plane are clipped out and erased. 
#                    The normal vector (a,b,c) needs not be a unit vector. 
#                    If it is a unit vector, parameter "d" gives distance 
#                    between the clipping plane and origin (0,0,0).