shell-project/games/bash2048.sh

#!/usr/bin/env bash

#important variables
declare -ia board    # array that keeps track of game status
declare -i pieces    # number of pieces present on board
declare -i score=0   # score variable
declare -i flag_skip # flag that prevents doing more than one operation on
                     # single field in one step
declare -i moves     # stores number of possible moves to determine if player lost 
                     # the game
declare ESC=$'\e'    # escape byte
declare header="Bash 2048 v1.1 (https://github.com/mydzor/bash2048)"

declare -i start_time=$(date +%s)

#default config
declare -i board_size=4
declare -i target=2048
declare -i reload_flag=0
declare config_dir="$HOME/.bash2048"

#for colorizing numbers
declare -a colors
colors[2]=33         # yellow text
colors[4]=32         # green text
colors[8]=34         # blue text
colors[16]=36        # cyan text
colors[32]=35        # purple text
colors[64]="33m\033[7"        # yellow background
colors[128]="32m\033[7"       # green background
colors[256]="34m\033[7"       # blue background
colors[512]="36m\033[7"       # cyan background
colors[1024]="35m\033[7"      # purple background
colors[2048]="31m\033[7"      # red background (won with default target)

exec 3>/dev/null     # no logging by default

trap "end_game 0 1" INT #handle INT signal

#simplified replacement of seq command
function _seq {
  local cur=1
  local max
  local inc=1
  case $# in
    1) let max=$1;;
    2) let cur=$1
       let max=$2;;
    3) let cur=$1
       let inc=$2
       let max=$3;;
  esac
  while test $max -ge $cur; do
    printf "$cur "
    let cur+=inc
  done
}

# print currect status of the game, last added pieces are marked red
function print_board {
  clear
  printf "$header pieces=$pieces target=$target score=$score\n"
  printf "Board status:\n" >&3
  printf "\n"
  printf '/------'
  for l in $(_seq 1 $index_max); do
    printf '+------'
  done
  printf '\\\n'
  for l in $(_seq 0 $index_max); do
    printf '|'
    for m in $(_seq 0 $index_max); do
      if let ${board[l*$board_size+m]}; then
        if let '(last_added==(l*board_size+m))|(first_round==(l*board_size+m))'; then
          printf '\033[1m\033[31m %4d \033[0m|' ${board[l*$board_size+m]}
        else
          printf "\033[1m\033[${colors[${board[l*$board_size+m]}]}m %4d\033[0m |" ${board[l*$board_size+m]}
        fi
        printf " %4d |" ${board[l*$board_size+m]} >&3
      else
        printf '      |'
        printf '      |' >&3
      fi
    done
    let l==$index_max || {
      printf '\n|------'
      for l in $(_seq 1 $index_max); do
        printf '+------'
      done
      printf '|\n'
      printf '\n' >&3
    }
  done
  printf '\n\\------'
  for l in $(_seq 1 $index_max); do
    printf '+------'
  done
  printf '/\n'
}

# Generate new piece on the board
# inputs:
#         $board  - original state of the game board
#         $pieces - original number of pieces
# outputs:
#         $board  - new state of the game board
#         $pieces - new number of pieces
function generate_piece {
  while true; do
    let pos=RANDOM%fields_total
    let board[$pos] || {
      let value=RANDOM%10?2:4
      board[$pos]=$value
      last_added=$pos
      printf "Generated new piece with value $value at position [$pos]\n" >&3
      break;
    }
  done
  let pieces++
}

# perform push operation between two pieces
# inputs:
#         $1 - push position, for horizontal push this is row, for vertical column
#         $2 - recipient piece, this will hold result if moving or joining
#         $3 - originator piece, after moving or joining this will be left empty
#         $4 - direction of push, can be either "up", "down", "left" or "right"
#         $5 - if anything is passed, do not perform the push, only update number 
#              of valid moves
#         $board - original state of the game board
# outputs:
#         $change    - indicates if the board was changed this round
#         $flag_skip - indicates that recipient piece cannot be modified further
#         $board     - new state of the game board
function push_pieces {
  case $4 in
    "up")
      let "first=$2*$board_size+$1"
      let "second=($2+$3)*$board_size+$1"
      ;;
    "down")
      let "first=(index_max-$2)*$board_size+$1"
      let "second=(index_max-$2-$3)*$board_size+$1"
      ;;
    "left")
      let "first=$1*$board_size+$2"
      let "second=$1*$board_size+($2+$3)"
      ;;
    "right")
      let "first=$1*$board_size+(index_max-$2)"
      let "second=$1*$board_size+(index_max-$2-$3)"
      ;;
  esac
  let ${board[$first]} || { 
    let ${board[$second]} && {
      if test -z $5; then
        board[$first]=${board[$second]}
        let board[$second]=0
        let change=1
        printf "move piece with value ${board[$first]} from [$second] to [$first]\n" >&3
      else
        let moves++
      fi
      return
    }
    return
  }
  let ${board[$second]} && let flag_skip=1
  let "${board[$first]}==${board[second]}" && { 
    if test -z $5; then
      let board[$first]*=2
      let "board[$first]==$target" && end_game 1
      let board[$second]=0
      let pieces-=1
      let change=1
      let score+=${board[$first]}
      printf "joined piece from [$second] with [$first], new value=${board[$first]}\n" >&3
    else
      let moves++
    fi
  }
}

function apply_push {
  printf "\n\ninput: $1 key\n" >&3
  for i in $(_seq 0 $index_max); do
    for j in $(_seq 0 $index_max); do
      flag_skip=0
      let increment_max=index_max-j
      for k in $(_seq 1 $increment_max); do
        let flag_skip && break
        push_pieces $i $j $k $1 $2
      done 
    done
  done
}

function check_moves {
  let moves=0
  apply_push up fake
  apply_push down fake
  apply_push left fake
  apply_push right fake
}

function key_react {
  let change=0
  read -d '' -sn 1
  test "$REPLY" = "$ESC" && {
    read -d '' -sn 1 -t1
    test "$REPLY" = "[" && {
      read -d '' -sn 1 -t1
      case $REPLY in
        A) apply_push up;;
        B) apply_push down;;
        C) apply_push right;;
        D) apply_push left;;
      esac
    }
  } || {
    case $REPLY in
      k) apply_push up;;
      j) apply_push down;;
      l) apply_push right;;
      h) apply_push left;;

      w) apply_push up;;
      s) apply_push down;;
      d) apply_push right;;
      a) apply_push left;;
    esac
  }
}

function save_game {
  rm -rf "$config_dir"
  mkdir "$config_dir"
  echo "${board[@]}" > "$config_dir/board"
  echo "$board_size" > "$config_dir/board_size"
  echo "$pieces" > "$config_dir/pieces"
  echo "$target" > "$config_dir/target"
#  echo "$log_file" > "$config_dir/log_file"
  echo "$score" > "$config_dir/score"
  echo "$first_round" > "$config_dir/first_round"
}

function reload_game {
  printf "Loading saved game...\n" >&3

  if test ! -d "$config_dir"; then
    return
  fi
  board=(`cat "$config_dir/board"`)
  board_size=(`cat "$config_dir/board_size"`)
  board=(`cat "$config_dir/board"`)
  pieces=(`cat "$config_dir/pieces"`)
  first_round=(`cat "$config_dir/first_round"`)
  target=(`cat "$config_dir/target"`)
  score=(`cat "$config_dir/score"`)

  fields_total=board_size*board_size
  index_max=board_size-1
}

function end_game {
  # count game duration
  end_time=$(date +%s) 
  let total_time=end_time-start_time
  
  print_board
  printf "Your score: $score\n"
  
  printf "This game lasted "

  `date --version > /dev/null 2>&1`
  if [[ "$?" -eq 0 ]]; then
      date -u -d @${total_time} +%T
  else
      date -u -r ${total_time} +%T
  fi
  
  stty echo
  let $1 && {
    printf "Congratulations you have achieved $target\n"
    exit 0
  }
  let test -z $2 && {
    read -n1 -p "Do you want to overwrite saved game? [y|N]: "
    test "$REPLY" = "Y" || test "$REPLY" = "y" && {
      save_game
      printf "\nGame saved. Use -r option next to load this game.\n"
      exit 0
    }
    test "$REPLY" = "" && {
      printf "\nGame not saved.\n"
      exit 0
    }
  }
  printf "\nYou have lost, better luck next time.\033[0m\n"
  exit 0
}

function help {
  cat <<END_HELP
Usage: $1 [-b INTEGER] [-t INTEGER] [-l FILE] [-r] [-h]

  -b			specify game board size (sizes 3-9 allowed)
  -t			specify target score to win (needs to be power of 2)
  -l			log debug info into specified file
  -r			reload the previous game
  -h			this help

END_HELP
}


#parse commandline options
while getopts "b:t:l:rh" opt; do
  case $opt in
    b ) board_size="$OPTARG"
      let '(board_size>=3)&(board_size<=9)' || {
        printf "Invalid board size, please choose size between 3 and 9\n"
        exit -1 
      };;
    t ) target="$OPTARG"
      printf "obase=2;$target\n" | bc | grep -e '^1[^1]*$'
      let $? && {
        printf "Invalid target, has to be power of two\n"
        exit -1 
      };;
    r ) reload_flag="1";;
    h ) help $0
        exit 0;;
    l ) exec 3>$OPTARG;;
    \?) printf "Invalid option: -"$opt", try $0 -h\n" >&2
            exit 1;;
    : ) printf "Option -"$opt" requires an argument, try $0 -h\n" >&2
            exit 1;;
  esac
done

#init board
let fields_total=board_size*board_size
let index_max=board_size-1
for i in $(_seq 0 $fields_total); do board[$i]="0"; done
let pieces=0
generate_piece
first_round=$last_added
generate_piece

#load saved game if flag is set
if test $reload_flag = "1"; then
  reload_game
fi

while true; do
  print_board
  key_react
  let change && generate_piece
  first_round=-1
  let pieces==fields_total && {
   check_moves
   let moves==0 && end_game 0 #lose the game
  }
done
提交版本 2 years ago			`#!/usr/bin/env bash`

			`#important variables`
			`declare -ia board # array that keeps track of game status`
			`declare -i pieces # number of pieces present on board`
			`declare -i score=0 # score variable`
			`declare -i flag_skip # flag that prevents doing more than one operation on`
			`# single field in one step`
			`declare -i moves # stores number of possible moves to determine if player lost`
			`# the game`
			`declare ESC=$'\e' # escape byte`
			`declare header="Bash 2048 v1.1 (https://github.com/mydzor/bash2048)"`

			`declare -i start_time=$(date +%s)`

			`#default config`
			`declare -i board_size=4`
			`declare -i target=2048`
			`declare -i reload_flag=0`
			`declare config_dir="$HOME/.bash2048"`

			`#for colorizing numbers`
			`declare -a colors`
			`colors[2]=33 # yellow text`
			`colors[4]=32 # green text`
			`colors[8]=34 # blue text`
			`colors[16]=36 # cyan text`
			`colors[32]=35 # purple text`
			`colors[64]="33m\033[7" # yellow background`
			`colors[128]="32m\033[7" # green background`
			`colors[256]="34m\033[7" # blue background`
			`colors[512]="36m\033[7" # cyan background`
			`colors[1024]="35m\033[7" # purple background`
			`colors[2048]="31m\033[7" # red background (won with default target)`

			`exec 3>/dev/null # no logging by default`

			`trap "end_game 0 1" INT #handle INT signal`

			`#simplified replacement of seq command`
			`function _seq {`
			`local cur=1`
			`local max`
			`local inc=1`
			`case $# in`
			`1) let max=$1;;`
			`2) let cur=$1`
			`let max=$2;;`
			`3) let cur=$1`
			`let inc=$2`
			`let max=$3;;`
			`esac`
			`while test $max -ge $cur; do`
			`printf "$cur "`
			`let cur+=inc`
			`done`
			`}`

			`# print currect status of the game, last added pieces are marked red`
			`function print_board {`
			`clear`
			`printf "$header pieces=$pieces target=$target score=$score\n"`
			`printf "Board status:\n" >&3`
			`printf "\n"`
			`printf '/------'`
			`for l in $(_seq 1 $index_max); do`
			`printf '+------'`
			`done`
			`printf '\\\n'`
			`for l in $(_seq 0 $index_max); do`
			`printf '\|'`
			`for m in $(_seq 0 $index_max); do`
			`if let ${board[l*$board_size+m]}; then`
			`if let '(last_added==(lboard_size+m))\|(first_round==(lboard_size+m))'; then`
			`printf '\033[1m\033[31m %4d \033[0m\|' ${board[l*$board_size+m]}`
			`else`
			`printf "\033[1m\033[${colors[${board[l$board_size+m]}]}m %4d\033[0m \|" ${board[l$board_size+m]}`
			`fi`
			`printf " %4d \|" ${board[l*$board_size+m]} >&3`
			`else`
			`printf ' \|'`
			`printf ' \|' >&3`
			`fi`
			`done`
			`let l==$index_max \|\| {`
			`printf '\n\|------'`
			`for l in $(_seq 1 $index_max); do`
			`printf '+------'`
			`done`
			`printf '\|\n'`
			`printf '\n' >&3`
			`}`
			`done`
			`printf '\n\\------'`
			`for l in $(_seq 1 $index_max); do`
			`printf '+------'`
			`done`
			`printf '/\n'`
			`}`

			`# Generate new piece on the board`
			`# inputs:`
			`# $board - original state of the game board`
			`# $pieces - original number of pieces`
			`# outputs:`
			`# $board - new state of the game board`
			`# $pieces - new number of pieces`
			`function generate_piece {`
			`while true; do`
			`let pos=RANDOM%fields_total`
			`let board[$pos] \|\| {`
			`let value=RANDOM%10?2:4`
			`board[$pos]=$value`
			`last_added=$pos`
			`printf "Generated new piece with value $value at position [$pos]\n" >&3`
			`break;`
			`}`
			`done`
			`let pieces++`
			`}`

			`# perform push operation between two pieces`
			`# inputs:`
			`# $1 - push position, for horizontal push this is row, for vertical column`
			`# $2 - recipient piece, this will hold result if moving or joining`
			`# $3 - originator piece, after moving or joining this will be left empty`
			`# $4 - direction of push, can be either "up", "down", "left" or "right"`
			`# $5 - if anything is passed, do not perform the push, only update number`
			`# of valid moves`
			`# $board - original state of the game board`
			`# outputs:`
			`# $change - indicates if the board was changed this round`
			`# $flag_skip - indicates that recipient piece cannot be modified further`
			`# $board - new state of the game board`
			`function push_pieces {`
			`case $4 in`
			`"up")`
			`let "first=$2*$board_size+$1"`
			`let "second=($2+$3)*$board_size+$1"`
			`;;`
			`"down")`
			`let "first=(index_max-$2)*$board_size+$1"`
			`let "second=(index_max-$2-$3)*$board_size+$1"`
			`;;`
			`"left")`
			`let "first=$1*$board_size+$2"`
			`let "second=$1*$board_size+($2+$3)"`
			`;;`
			`"right")`
			`let "first=$1*$board_size+(index_max-$2)"`
			`let "second=$1*$board_size+(index_max-$2-$3)"`
			`;;`
			`esac`
			`let ${board[$first]} \|\| {`
			`let ${board[$second]} && {`
			`if test -z $5; then`
			`board[$first]=${board[$second]}`
			`let board[$second]=0`
			`let change=1`
			`printf "move piece with value ${board[$first]} from [$second] to [$first]\n" >&3`
			`else`
			`let moves++`
			`fi`
			`return`
			`}`
			`return`
			`}`
			`let ${board[$second]} && let flag_skip=1`
			`let "${board[$first]}==${board[second]}" && {`
			`if test -z $5; then`
			`let board[$first]*=2`
			`let "board[$first]==$target" && end_game 1`
			`let board[$second]=0`
			`let pieces-=1`
			`let change=1`
			`let score+=${board[$first]}`
			`printf "joined piece from [$second] with [$first], new value=${board[$first]}\n" >&3`
			`else`
			`let moves++`
			`fi`
			`}`
			`}`

			`function apply_push {`
			`printf "\n\ninput: $1 key\n" >&3`
			`for i in $(_seq 0 $index_max); do`
			`for j in $(_seq 0 $index_max); do`
			`flag_skip=0`
			`let increment_max=index_max-j`
			`for k in $(_seq 1 $increment_max); do`
			`let flag_skip && break`
			`push_pieces $i $j $k $1 $2`
			`done`
			`done`
			`done`
			`}`

			`function check_moves {`
			`let moves=0`
			`apply_push up fake`
			`apply_push down fake`
			`apply_push left fake`
			`apply_push right fake`
			`}`

			`function key_react {`
			`let change=0`
			`read -d '' -sn 1`
			`test "$REPLY" = "$ESC" && {`
			`read -d '' -sn 1 -t1`
			`test "$REPLY" = "[" && {`
			`read -d '' -sn 1 -t1`
			`case $REPLY in`
			`A) apply_push up;;`
			`B) apply_push down;;`
			`C) apply_push right;;`
			`D) apply_push left;;`
			`esac`
			`}`
			`} \|\| {`
			`case $REPLY in`
			`k) apply_push up;;`
			`j) apply_push down;;`
			`l) apply_push right;;`
			`h) apply_push left;;`

			`w) apply_push up;;`
			`s) apply_push down;;`
			`d) apply_push right;;`
			`a) apply_push left;;`
			`esac`
			`}`
			`}`

			`function save_game {`
			`rm -rf "$config_dir"`
			`mkdir "$config_dir"`
			`echo "${board[@]}" > "$config_dir/board"`
			`echo "$board_size" > "$config_dir/board_size"`
			`echo "$pieces" > "$config_dir/pieces"`
			`echo "$target" > "$config_dir/target"`
			`# echo "$log_file" > "$config_dir/log_file"`
			`echo "$score" > "$config_dir/score"`
			`echo "$first_round" > "$config_dir/first_round"`
			`}`

			`function reload_game {`
			`printf "Loading saved game...\n" >&3`

			`if test ! -d "$config_dir"; then`
			`return`
			`fi`
			board=(`cat "$config_dir/board"`)
			board_size=(`cat "$config_dir/board_size"`)
			board=(`cat "$config_dir/board"`)
			pieces=(`cat "$config_dir/pieces"`)
			first_round=(`cat "$config_dir/first_round"`)
			target=(`cat "$config_dir/target"`)
			score=(`cat "$config_dir/score"`)

			`fields_total=board_size*board_size`
			`index_max=board_size-1`
			`}`

			`function end_game {`
			`# count game duration`
			`end_time=$(date +%s)`
			`let total_time=end_time-start_time`

			`print_board`
			`printf "Your score: $score\n"`

			`printf "This game lasted "`

			`date --version > /dev/null 2>&1`
			`if [[ "$?" -eq 0 ]]; then`
			`date -u -d @${total_time} +%T`
			`else`
			`date -u -r ${total_time} +%T`
			`fi`

			`stty echo`
			`let $1 && {`
			`printf "Congratulations you have achieved $target\n"`
			`exit 0`
			`}`
			`let test -z $2 && {`
			`read -n1 -p "Do you want to overwrite saved game? [y\|N]: "`
			`test "$REPLY" = "Y" \|\| test "$REPLY" = "y" && {`
			`save_game`
			`printf "\nGame saved. Use -r option next to load this game.\n"`
			`exit 0`
			`}`
			`test "$REPLY" = "" && {`
			`printf "\nGame not saved.\n"`
			`exit 0`
			`}`
			`}`
			`printf "\nYou have lost, better luck next time.\033[0m\n"`
			`exit 0`
			`}`

			`function help {`
			`cat <<END_HELP`
			`Usage: $1 [-b INTEGER] [-t INTEGER] [-l FILE] [-r] [-h]`

			`-b specify game board size (sizes 3-9 allowed)`
			`-t specify target score to win (needs to be power of 2)`
			`-l log debug info into specified file`
			`-r reload the previous game`
			`-h this help`

			`END_HELP`
			`}`


			`#parse commandline options`
			`while getopts "b:t:l:rh" opt; do`
			`case $opt in`
			`b ) board_size="$OPTARG"`
			`let '(board_size>=3)&(board_size<=9)' \|\| {`
			`printf "Invalid board size, please choose size between 3 and 9\n"`
			`exit -1`
			`};;`
			`t ) target="$OPTARG"`
			`printf "obase=2;$target\n" \| bc \| grep -e '^1[^1]*$'`
			`let $? && {`
			`printf "Invalid target, has to be power of two\n"`
			`exit -1`
			`};;`
			`r ) reload_flag="1";;`
			`h ) help $0`
			`exit 0;;`
			`l ) exec 3>$OPTARG;;`
			`\?) printf "Invalid option: -"$opt", try $0 -h\n" >&2`
			`exit 1;;`
			`: ) printf "Option -"$opt" requires an argument, try $0 -h\n" >&2`
			`exit 1;;`
			`esac`
			`done`

			`#init board`
			`let fields_total=board_size*board_size`
			`let index_max=board_size-1`
			`for i in $(_seq 0 $fields_total); do board[$i]="0"; done`
			`let pieces=0`
			`generate_piece`
			`first_round=$last_added`
			`generate_piece`

			`#load saved game if flag is set`
			`if test $reload_flag = "1"; then`
			`reload_game`
			`fi`

			`while true; do`
			`print_board`
			`key_react`
			`let change && generate_piece`
			`first_round=-1`
			`let pieces==fields_total && {`
			`check_moves`
			`let moves==0 && end_game 0 #lose the game`
			`}`
			`done`