- #echo "$line" >&2
-}
-
-get_vector() {
- local x1=$1
- local y1=$2
- local x2=$3
- local y2=$4
-
- x_diff=$(($x1 - $x2))
- y_diff=$(($y1 - $y2))
-
- echo "$x_diff,$y_diff"
-}
-
-check_collision() {
- # we want to know if vector2 is going to get in the way of vector1
- local vector1=$1
- local vector2=$2
-
- debug_line Comparing: $vector1 $vector2
-
- vector1_x=${vector1%,*}
- vector1_y=${vector1#*,}
- vector2_x=${vector2%,*}
- vector2_y=${vector2#*,}
-
- # potentially blocking asteroid
- # first calculate the minimum x and y steps that are whole numbers
- # min number first, we'll then halve it and work through the steps
-
- # work out which asteroid is furthest from use
- vector1_x_val=${vector1_x#-}
- vector1_y_val=${vector1_y#-}
- vector2_x_val=${vector2_x#-}
- vector2_y_val=${vector2_y#-}
-
- minimum_number=$vector2_x_val
- if ( [ $vector2_x_val -gt $vector2_y_val ] && [ $vector2_y_val -gt 0 ] ) ||
- [ $minimum_number -eq 0 ]; then
- minimum_number=$vector2_y_val
- fi
-
- debug_line "Min number: $minimum_number"
-
- minstep_x=$vector2_x
- minstep_y=$vector2_y
- for (( a=$minimum_number; a>0; a-- )); do
- if [ $((vector2_x % $a)) -eq 0 ] && [ $((vector2_y % $a)) -eq 0 ]; then
- minstep_x=$((vector2_x / $a))
- minstep_y=$((vector2_y / $a))
- break
- fi
- done
- debug_line "Have minsteps: $minstep_x,$minstep_y"
-
- # in all other cases, we're at least heading in the right direction
- cur_x=$vector2_x
- cur_y=$vector2_y
-
- debug_line "Looking for: $vector1_x,$vector1_y"
- debug_line "Start: $cur_x,$cur_y"
-
- # from the starting point, add the min steps until we're past the other asteroid
- while keep_going $cur_x $cur_y $minstep_x $minstep_y $vector1_x $vector1_y; do
- cur_x=$((cur_x+$minstep_x))
- cur_y=$((cur_y+$minstep_y))
- debug_line "Step: $cur_x,$cur_y"
- if [ $cur_x -eq $vector1_x ] && [ $cur_y -eq $vector1_y ]; then
- debug_line echo "Collision!"
- return 0
- fi
- done
-
- return 1
-}
-
-keep_going() {
- local cur_x=$1
- local cur_y=$2
- local minstep_x=$3
- local minstep_y=$4
- local ast_x=$5
- local ast_y=$6
-
- if [ $minstep_x -lt 0 ] && [ $cur_x -lt $ast_x ]; then
- # past the asteroid, we missed
- debug_line "stop cond 1"
- return 1
- elif [ $minstep_y -lt 0 ] && [ $cur_y -lt $ast_y ]; then
- # past the asteroid, we missed
- debug_line "stop cond 2"
- return 1
- elif [ $minstep_x -gt 0 ] && [ $cur_x -gt $ast_x ]; then
- debug_line "stop cond 3"
- return 1
- elif [ $minstep_y -gt 0 ] && [ $cur_y -gt $ast_y ]; then
- debug_line "stop cond 4"
- return 1
- fi
-
- return 0