setmetatable(_G, { __index = function(t, k) if not rawget(t, k) then error("cannot get undefined global variable: " .. k, 2) end end, __newindex = function(t, k) error("cannot set global variable: " .. k, 2) end  })

-- Begin rxi JSON library.
local json = { _version = "0.1.2" }
local encode
local escape_char_map = {
  [ "\\" ] = "\\",
  [ "\"" ] = "\"",
  [ "\b" ] = "b",
  [ "\f" ] = "f",
  [ "\n" ] = "n",
  [ "\r" ] = "r",
  [ "\t" ] = "t",
}

local escape_char_map_inv = { [ "/" ] = "/" }
for k, v in pairs(escape_char_map) do
  escape_char_map_inv[v] = k
end


local function escape_char(c)
  return "\\" .. (escape_char_map[c] or string.format("u%04x", c:byte()))
end


local function encode_nil(val)
  return "null"
end


local function encode_table(val, stack)
  local res = {}
  stack = stack or {}

  -- Circular reference?
  if stack[val] then error("circular reference") end

  stack[val] = true

  if rawget(val, 1) ~= nil or next(val) == nil then
    -- Treat as array -- check keys are valid and it is not sparse
    local n = 0
    for k in pairs(val) do
      if type(k) ~= "number" then
        error("invalid table: mixed or invalid key types")
      end
      n = n + 1
    end
    if n ~= #val then
      error("invalid table: sparse array")
    end
    -- Encode
    for i, v in ipairs(val) do
      table.insert(res, encode(v, stack))
    end
    stack[val] = nil
    return "[" .. table.concat(res, ",") .. "]"

  else
    -- Treat as an object
    for k, v in pairs(val) do
      if type(k) ~= "string" then
        error("invalid table: mixed or invalid key types")
      end
      table.insert(res, encode(k, stack) .. ":" .. encode(v, stack))
    end
    stack[val] = nil
    return "{" .. table.concat(res, ",") .. "}"
  end
end


local function encode_string(val)
  return '"' .. val:gsub('[%z\1-\31\\"]', escape_char) .. '"'
end


local function encode_number(val)
  -- Check for NaN, -inf and inf
  if val ~= val or val <= -math.huge or val >= math.huge then
    error("unexpected number value '" .. tostring(val) .. "'")
  end
  return string.format("%.14g", val)
end


local type_func_map = {
  [ "nil"     ] = encode_nil,
  [ "table"   ] = encode_table,
  [ "string"  ] = encode_string,
  [ "number"  ] = encode_number,
  [ "boolean" ] = tostring,
}


encode = function(val, stack)
  local t = type(val)
  local f = type_func_map[t]
  if f then
    return f(val, stack)
  end
  error("unexpected type '" .. t .. "'")
end


function json.encode(val)
  return ( encode(val) )
end

local parse

local function create_set(...)
  local res = {}
  for i = 1, select("#", ...) do
    res[ select(i, ...) ] = true
  end
  return res
end

local space_chars   = create_set(" ", "\t", "\r", "\n")
local delim_chars   = create_set(" ", "\t", "\r", "\n", "]", "}", ",")
local escape_chars  = create_set("\\", "/", '"', "b", "f", "n", "r", "t", "u")
local literals      = create_set("true", "false", "null")

local literal_map = {
  [ "true"  ] = true,
  [ "false" ] = false,
  [ "null"  ] = nil,
}


local function next_char(str, idx, set, negate)
  for i = idx, #str do
    if set[str:sub(i, i)] ~= negate then
      return i
    end
  end
  return #str + 1
end


local function decode_error(str, idx, msg)
  local line_count = 1
  local col_count = 1
  for i = 1, idx - 1 do
    col_count = col_count + 1
    if str:sub(i, i) == "\n" then
      line_count = line_count + 1
      col_count = 1
    end
  end
  error( string.format("%s at line %d col %d", msg, line_count, col_count) )
end


local function codepoint_to_utf8(n)
  -- http://scripts.sil.org/cms/scripts/page.php?site_id=nrsi&id=iws-appendixa
  local f = math.floor
  if n <= 0x7f then
    return string.char(n)
  elseif n <= 0x7ff then
    return string.char(f(n / 64) + 192, n % 64 + 128)
  elseif n <= 0xffff then
    return string.char(f(n / 4096) + 224, f(n % 4096 / 64) + 128, n % 64 + 128)
  elseif n <= 0x10ffff then
    return string.char(f(n / 262144) + 240, f(n % 262144 / 4096) + 128,
                       f(n % 4096 / 64) + 128, n % 64 + 128)
  end
  error( string.format("invalid unicode codepoint '%x'", n) )
end


local function parse_unicode_escape(s)
  local n1 = tonumber( s:sub(1, 4),  16 )
  local n2 = tonumber( s:sub(7, 10), 16 )
   -- Surrogate pair?
  if n2 then
    return codepoint_to_utf8((n1 - 0xd800) * 0x400 + (n2 - 0xdc00) + 0x10000)
  else
    return codepoint_to_utf8(n1)
  end
end


local function parse_string(str, i)
  local res = ""
  local j = i + 1
  local k = j

  while j <= #str do
    local x = str:byte(j)

    if x < 32 then
      decode_error(str, j, "control character in string")

    elseif x == 92 then -- `\`: Escape
      res = res .. str:sub(k, j - 1)
      j = j + 1
      local c = str:sub(j, j)
      if c == "u" then
        local hex = str:match("^[dD][89aAbB]%x%x\\u%x%x%x%x", j + 1)
                 or str:match("^%x%x%x%x", j + 1)
                 or decode_error(str, j - 1, "invalid unicode escape in string")
        res = res .. parse_unicode_escape(hex)
        j = j + #hex
      else
        if not escape_chars[c] then
          decode_error(str, j - 1, "invalid escape char '" .. c .. "' in string")
        end
        res = res .. escape_char_map_inv[c]
      end
      k = j + 1

    elseif x == 34 then -- `"`: End of string
      res = res .. str:sub(k, j - 1)
      return res, j + 1
    end

    j = j + 1
  end

  decode_error(str, i, "expected closing quote for string")
end


local function parse_number(str, i)
  local x = next_char(str, i, delim_chars)
  local s = str:sub(i, x - 1)
  local n = tonumber(s)
  if not n then
    decode_error(str, i, "invalid number '" .. s .. "'")
  end
  return n, x
end


local function parse_literal(str, i)
  local x = next_char(str, i, delim_chars)
  local word = str:sub(i, x - 1)
  if not literals[word] then
    decode_error(str, i, "invalid literal '" .. word .. "'")
  end
  return literal_map[word], x
end


local function parse_array(str, i)
  local res = {}
  local n = 1
  i = i + 1
  while 1 do
    local x
    i = next_char(str, i, space_chars, true)
    -- Empty / end of array?
    if str:sub(i, i) == "]" then
      i = i + 1
      break
    end
    -- Read token
    x, i = parse(str, i)
    res[n] = x
    n = n + 1
    -- Next token
    i = next_char(str, i, space_chars, true)
    local chr = str:sub(i, i)
    i = i + 1
    if chr == "]" then break end
    if chr ~= "," then decode_error(str, i, "expected ']' or ','") end
  end
  return res, i
end


local function parse_object(str, i)
  local res = {}
  i = i + 1
  while 1 do
    local key, val
    i = next_char(str, i, space_chars, true)
    -- Empty / end of object?
    if str:sub(i, i) == "}" then
      i = i + 1
      break
    end
    -- Read key
    if str:sub(i, i) ~= '"' then
      decode_error(str, i, "expected string for key")
    end
    key, i = parse(str, i)
    -- Read ':' delimiter
    i = next_char(str, i, space_chars, true)
    if str:sub(i, i) ~= ":" then
      decode_error(str, i, "expected ':' after key")
    end
    i = next_char(str, i + 1, space_chars, true)
    -- Read value
    val, i = parse(str, i)
    -- Set
    res[key] = val
    -- Next token
    i = next_char(str, i, space_chars, true)
    local chr = str:sub(i, i)
    i = i + 1
    if chr == "}" then break end
    if chr ~= "," then decode_error(str, i, "expected '}' or ','") end
  end
  return res, i
end


local char_func_map = {
  [ '"' ] = parse_string,
  [ "0" ] = parse_number,
  [ "1" ] = parse_number,
  [ "2" ] = parse_number,
  [ "3" ] = parse_number,
  [ "4" ] = parse_number,
  [ "5" ] = parse_number,
  [ "6" ] = parse_number,
  [ "7" ] = parse_number,
  [ "8" ] = parse_number,
  [ "9" ] = parse_number,
  [ "-" ] = parse_number,
  [ "t" ] = parse_literal,
  [ "f" ] = parse_literal,
  [ "n" ] = parse_literal,
  [ "[" ] = parse_array,
  [ "{" ] = parse_object,
}


parse = function(str, idx)
  local chr = str:sub(idx, idx)
  local f = char_func_map[chr]
  if f then
    return f(str, idx)
  end
  decode_error(str, idx, "unexpected character '" .. chr .. "'")
end


function json.decode(str)
  if type(str) ~= "string" then
    error("expected argument of type string, got " .. type(str))
  end
  local res, idx = parse(str, next_char(str, 1, space_chars, true))
  idx = next_char(str, idx, space_chars, true)
  if idx <= #str then
    decode_error(str, idx, "trailing garbage")
  end
  return res
end

local tmpdir = os.getenv("TMPDIR") or "/tmp"
local fast = os.getenv("FAST")
local last_command_result, last_command
local userdir = tmpdir .. "/lpmtest"
local function lpm(cmd)
  last_command = "./lpm --quiet --json --userdir=" .. userdir .. " " .. cmd
  local pipe = io.popen(last_command, "r")
  last_command_result = json.decode(pipe:read("*all"))
  local success = pipe:close()
  if not success then error("error calling lpm", 2) end
  return last_command_result
end

local function assert_exists(path)
  if not io.open(path, "rb")  then error("assertion failed: file " .. path .. " does not exist", 2) end
end
local function assert_not_exists(path)
  if io.open(path, "rb") then error("assertion failed: file " .. path .. " exists", 2) end
end

local function run_tests(tests, arg)
  local fail_count = 0
  local names = {}
  if #arg == 0 then
    for k,v in pairs(tests) do table.insert(names, k) end  
  else
    names = arg
  end
  table.sort(names)
  local max_name = 0
  for i,k in ipairs(names) do max_name = math.max(max_name, #k) end  
  for i,k in ipairs(names) do
    local v = tests[k]
    if fast then
      os.execute("rm -rf " .. tmpdir .. "/lpmtest/plugins && mkdir -p " .. tmpdir .. "/lpmtest");
    else
      os.execute("rm -rf " .. tmpdir .. "/lpmtest && mkdir -p " .. tmpdir .. "/lpmtest");
    end
    io.stdout:write(string.format("test %-" .. (max_name + 1) .. "s: ", k))
    local failed = false
    xpcall(v, function(err)
      print("[FAIL]: " .. err)
      print()
      print()
      print("Last Command: " .. last_command)
      print(json.encode(last_command_result)) 
      fail_count = fail_count + 1
      failed = true
    end)
    if not failed then
      print("[PASSED]")
    end
  end
  os.exit(fail_count)
end

local tests = {
  ["00_install_singleton"] = function()
    local plugins = lpm("list bracketmatch")["plugins"]
    assert(#plugins == 1)
    assert(plugins[1].organization == "singleton")
    assert(plugins[1].status == "available")
    local actions = lpm("install bracketmatch")["actions"]
    assert(actions[1]:find("Installing singleton"))
    assert_exists(userdir .. "/plugins/bracketmatch.lua")
    actions = lpm("uninstall bracketmatch")["actions"]
    assert_not_exists(userdir .. "/plugins/bracketmatch.lua")
  end,
  ["01_upgrade_singleton"] = function()
    lpm("install bracketmatch")
    local plugins = lpm("list bracketmatch")["plugins"]
    assert(#plugins == 1)
    assert(plugins[1].status == "installed")
    assert_exists(plugins[1].path)
    io.open(plugins[1].path, "ab"):write("-- this is a test comment to modify the checksum"):close()
    plugins = lpm("list bracketmatch")["plugins"]
    assert(#plugins == 2)
    lpm("install bracketmatch")
    plugins = lpm("list bracketmatch")["plugins"]
    assert(#plugins == 1)
  end,
  ["02_install_complex"] = function()
    local plugins = lpm("list plugin_manager")["plugins"]
    assert(#plugins == 1)
    assert(plugins[1].organization == "complex")
    assert(plugins[1].status == "available")
    local actions = lpm("install plugin_manager")["actions"]
    assert_exists(userdir .. "/libraries/json.lua")
    assert_exists(userdir .. "/plugins/plugin_manager")
    assert_exists(userdir .. "/plugins/plugin_manager/init.lua")
    actions = lpm("uninstall plugin_manager")["actions"]
    assert_not_exists(userdir .. "/plugins/plugin_manager")
  end,
  ["03_upgrade_complex"] = function()
    local actions = lpm("install plugin_manager")
    local plugins = lpm("list plugin_manager")["plugins"]
    assert(#plugins == 1)
    assert(plugins[1].organization == "complex")
    assert(plugins[1].status == "installed")
  end,
}


run_tests(tests, arg)