fun/.local/bin/rain #!/bin/bash RAINS=("|" "│" "┃" "┆" "┇" "┊" "┋" "╽" "╿") COLORS=("\e[37m" "\e[37;1m") # More from 256 color mode for i in {244..255}; do COLORS=("${COLORS[@]}" "\e[38;5;${i}m") done NRAINS=${#RAINS[@]} NCOLORS=${#COLORS[@]} NUM_RAIN_METADATA=5 sigwinch() { TERM_WIDTH=$(tput cols) TERM_HEIGHT=$(tput lines) STEP_DURATION=0.025 ((MAX_RAINS = TERM_WIDTH * TERM_HEIGHT / 4)) ((MAX_RAIN_LENGTH = TERM_HEIGHT < 10 ? 1 : TERM_HEIGHT / 10)) # In percentage ((NEW_RAIN_ODD = TERM_HEIGHT > 50 ? 100 : TERM_HEIGHT * 2)) ((NEW_RAIN_ODD = NEW_RAIN_ODD * 75 / 100)) ((FALLING_ODD = TERM_HEIGHT > 25 ? 100 : TERM_HEIGHT * 4)) ((FALLING_ODD = FALLING_ODD * 90 / 100)) } do_exit() { echo -ne "\e[${TERM_HEIGHT};1H\e[0K" # Show cursor and echo stdin echo -ne "\e[?25h" stty echo exit 0 } do_render() { # Clean screen first for ((idx = 0; idx < num_rains * NUM_RAIN_METADATA; idx += NUM_RAIN_METADATA)); do X=${rains[idx]} Y=${rains[idx + 1]} LENGTH=${rains[idx + 4]} for ((y = Y; y < Y + LENGTH; y++)); do (( y < 1 || y > TERM_HEIGHT )) && continue echo -ne "\e[${y};${X}H " done done for ((idx = 0; idx < num_rains * NUM_RAIN_METADATA; idx += NUM_RAIN_METADATA)); do if ((100 * RANDOM / 32768 < FALLING_ODD)); then # Falling if ((++rains[idx + 1] > TERM_HEIGHT)); then # Out of screen, bye sweet <3 rains=("${rains[@]:0:idx}" "${rains[@]:idx+NUM_RAIN_METADATA:num_rains*NUM_RAIN_METADATA}") ((num_rains--)) continue fi fi X=${rains[idx]} Y=${rains[idx + 1]} RAIN=${rains[idx + 2]} COLOR=${rains[idx + 3]} LENGTH=${rains[idx + 4]} for ((y = Y; y < Y + LENGTH; y++)); do (( y < 1 || y > TERM_HEIGHT )) && continue echo -ne "\e[${y};${X}H${COLOR}${RAIN}" done done } trap do_exit TERM INT trap sigwinch WINCH # No echo stdin and hide the cursor stty -echo echo -ne "\e[?25l" echo -ne "\e[2J" rains=() sigwinch while :; do read -n 1 -t $STEP_DURATION ch case "$ch" in q|Q) do_exit ;; esac if ((num_rains < MAX_RAINS)) && ((100 * RANDOM / 32768 < NEW_RAIN_ODD)); then # Need new |, 1-based RAIN="${RAINS[NRAINS * RANDOM / 32768]}" COLOR="${COLORS[NCOLORS * RANDOM / 32768]}" LENGTH=$((MAX_RAIN_LENGTH * RANDOM / 32768 + 1)) X=$((TERM_WIDTH * RANDOM / 32768 + 1)) Y=$((1 - LENGTH)) rains=("${rains[@]}" "$X" "$Y" "$RAIN" "$COLOR" "$LENGTH") ((num_rains++)) fi # Let rain fall! do_render done