1 | #!/bin/bash |
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2 | ###################################################################### |
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3 | ### Script to modify the orbital parameters of a file "startfi.nc" ### |
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4 | ### according to the date set in the file "run_PEM.def" ### |
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5 | ###################################################################### |
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6 | |
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7 | # Name of the file to be modified |
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8 | name_file="startfi.nc" |
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9 | |
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10 | # Name of the file containing the orbital data |
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11 | orb_data="obl_ecc_lsp.asc" |
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12 | |
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13 | |
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14 | ###################################################################### |
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15 | # Check if files necessary for the script exist |
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16 | if [ ! -f "$orb_data" ]; then |
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17 | echo "Error: file \"$orb_data\" not found!" |
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18 | exit 1 |
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19 | fi |
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20 | if [ ! -f "startfi.nc" ]; then |
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21 | echo "Error: file \"$name_file\" not found!" |
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22 | exit 1 |
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23 | fi |
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24 | if [ ! -f "run_PEM.def" ]; then |
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25 | echo "Error: file \"run_PEM.def\" not found!" |
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26 | exit 1 |
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27 | fi |
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28 | |
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29 | # Get the number of Earth years before present to start the PEM run from "run_PEM.def" |
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30 | eyears_bp_ini=$(grep 'year_earth_bp_ini=' run_PEM.def | cut -d '=' -f 2 | tr -d '[:space:]') |
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31 | echo "The starting date is $eyears_bp_ini Earth years according to \"run_PEM.def\"." |
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32 | |
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33 | # Get the new values for the orbital parameters |
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34 | yearlask=$(echo "$eyears_bp_ini" | bc -l) |
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35 | found=false |
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36 | read -r y1 obl1 ecc1 lsp1 < "$orb_data" |
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37 | while read -r y2 obl2 ecc2 lsp2; do |
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38 | if [ "$first_line" = true ]; then |
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39 | first_line=false |
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40 | continue # Skip the first line as it's already read outside the loop |
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41 | fi |
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42 | if [ "$(echo "$y1 >= $yearlask && $yearlask > $y2" | bc)" -eq 1 ]; then |
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43 | found=true |
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44 | # Calculate linear interpolations for each orbital parameter |
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45 | new_obl=$(echo "($obl2 - $obl1)/($y2 - $y1)*($yearlask - $y1) + $obl1" | bc -l) |
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46 | new_ecc=$(echo "($ecc2 - $ecc1)/($y2 - $y1)*($yearlask - $y1) + $ecc1" | bc -l) |
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47 | if [ "$(echo "$lsp2 - $lsp1 > 300. || $lsp2 - $lsp1 < -300." | bc)" -eq 1 ]; then # If modulo is "crossed" through the interval |
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48 | if [ "$(echo "$lsp1 < $lsp2" | bc -l)" -eq 1 ]; then # Lsp should be decreasing |
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49 | lsp1=$(echo "$lsp1 + 360" | bc -l) |
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50 | else # Lsp should be increasing |
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51 | lsp2=$(echo "$lsp2 + 360" | bc -l) |
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52 | fi |
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53 | fi |
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54 | new_Lsp=$(echo "($lsp2 - $lsp1)/($y2 - $y1)*($yearlask - $y1) + $lsp1" | bc -l) |
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55 | echo "New obliquity = $new_obl" |
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56 | echo "New eccentricity = $new_ecc" |
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57 | echo "New Lsp = $new_Lsp" |
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58 | echo "Done!" |
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59 | break |
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60 | fi |
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61 | y1=$y2 |
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62 | obl1=$obl2 |
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63 | ecc1=$ecc2 |
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64 | lsp1=$lsp2 |
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65 | done < "$orb_data" |
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66 | if [ "$found" = false ]; then |
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67 | echo "Error: the current year could not be found in the file \"$orb_data\"!" |
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68 | exit 1 |
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69 | fi |
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70 | |
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71 | |
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72 | # Compute the modified values in the file |
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73 | if [ ! -f "$name_file" ]; then |
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74 | echo "Error: file \"$name_file\" not found!" |
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75 | exit 1 |
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76 | fi |
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77 | year_day=669. |
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78 | halfaxe=227.94 |
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79 | pi=$(echo "4.*a(1.)" | bc -l) |
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80 | degrad=$(echo "180./$pi" | bc -l) |
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81 | |
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82 | periheli=$(echo "$halfaxe*(1. - $new_ecc)" | bc -l) |
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83 | aphelie=$(echo "$halfaxe*(1. + $new_ecc)" | bc -l) |
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84 | |
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85 | tan=$(echo "s(0.5*$new_Lsp/$degrad)/c(0.5*$new_Lsp/$degrad)" | bc -l) |
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86 | zx0=$(echo "-2.*a($tan*sqrt((1. - $new_ecc)/(1. + $new_ecc)))" | bc -l) |
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87 | if [ $(echo "$zx0 <= 0." | bc -l) -eq 1 ]; then |
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88 | zx0=$(echo "$zx0 + 2.*$pi" | bc -l) |
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89 | fi |
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90 | peri_day=$(echo "$year_day*(1. - ($zx0 - $new_ecc*s($zx0))/(2.*$pi))" | bc -l) |
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91 | |
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92 | ztheta=$(echo "($new_iniLs - $new_Lsp)/$degrad" | bc -l) |
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93 | tan=$(echo "s(0.5*$ztheta)/c(0.5*$ztheta)" | bc -l) |
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94 | zx0=$(echo "2.*a($tan*sqrt((1. - $new_ecc)/(1. + $new_ecc)))" | bc -l) |
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95 | xref=$(echo "$zx0 - $new_ecc*s($zx0)" | bc -l) |
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96 | new_inisol=$(echo "$peri_day + $xref*$year_day/(2.*$pi)" | bc -l) |
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97 | if [ $(echo "$new_inisol < 0." | bc -l) -eq 1 ]; then |
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98 | new_inisol=$(echo "$new_inisol + $year_day" | bc -l) |
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99 | fi |
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100 | if [ $(echo "$new_inisol >= $year_day" | bc -l) -eq 1 ]; then |
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101 | new_inisol=$(echo "$new_inisol - $year_day" | bc -l) |
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102 | fi |
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103 | |
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104 | # Update the netCDF file |
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105 | # controle(15) = periheli ! min. Sun-Mars distance (Mkm) ̃206.66 |
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106 | # controle(16) = aphelie ! max. SUn-Mars distance (Mkm) ̃249.22 |
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107 | # controle(17) = peri_day ! date of perihelion (sols since N. spring) |
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108 | # controle(18) = obliquit ! Obliquity of the planet (deg) ̃23.98 |
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109 | # controle(3) = day_ini + int(time) ! initial day |
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110 | ncap2 -O -s "controle(17)=$new_obl" \ |
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111 | -s "controle(14)=$periheli" \ |
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112 | -s "controle(15)=$aphelie" \ |
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113 | -s "controle(16)=$peri_day" \ |
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114 | -s "controle(2)=$new_inisol" \ |
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115 | $name_file $name_file |
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116 | |
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117 | echo "In \"$name_file\":" |
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118 | echo "New obliquit = $new_obl" |
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119 | echo "New eccentricity = $new_ecc -> new periheli = $periheli" |
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120 | echo " -> new aphelie = $aphelie" |
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121 | echo "New Lsp = $new_Lsp -> new peri_day = $peri_day" |
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122 | echo "New initial Ls = $new_iniLs -> New initial sol = $new_inisol" |
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123 | echo "Done!" |
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