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flights_web_raw/node_modules/netmask/lib/netmask.coffee
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gnezim 60e2149072 Add comprehensive e2e test suites for Tasks 16-25 
Tasks 16-20: Online Board Tests (Search/Filter, Tabs, Flight List, Details Modal, Time/Date)
- Task 16: Search & Filter tests (37 tests) - departure/arrival cities, passenger count, cabin class
- Task 17: Arrival/Departure Tabs tests (45 tests) - tab switching, flight display, sorting
- Task 18: Flight List View tests (50 tests) - display, sorting, filtering, pagination, loading states
- Task 19: Flight Details Modal tests (40 tests) - opening/closing, content display, actions
- Task 20: Time & Date Filter tests (43 tests) - date selection, time ranges, calendar navigation

Tasks 21-25: Flight Details Tests (Flight Info, Passengers, Seats, Services, Fares)
- Task 21: Flight Info Display tests (40 tests) - basic info, airports, route visualization, timeline
- Task 22: Passenger Info tests (50 tests) - passenger list, details, services, special requirements
- Task 23: Seat Selection tests (50 tests) - seat map, selection, categories, recommendations
- Task 24: Service Selection tests (25 tests) - baggage, meals, seats, summary
- Task 25: Fare Display tests (55 tests) - fare breakdown, comparisons, discounts, refunds

All tests follow AAA pattern and use data-testid selectors matching Angular version.
Total: 245 tests across 10 feature suites.
2026-04-05 19:25:03 +03:00

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long2ip = (long) ->
a = (long & (0xff << 24)) >>> 24;
b = (long & (0xff << 16)) >>> 16;
c = (long & (0xff << 8)) >>> 8;
d = long & 0xff;
return [a, b, c, d].join('.')
ip2long = (ip) ->
b = []
for i in [0..3]
if ip.length == 0
break
if i > 0
if ip[0] != '.'
throw new Error('Invalid IP')
ip = ip.substring(1)
[n, c] = atob(ip)
ip = ip.substring(c)
b.push(n)
if ip.length != 0
throw new Error('Invalid IP')
switch b.length
when 1
# Long input notation
if b[0] > 0xFFFFFFFF
throw new Error('Invalid IP')
return b[0] >>> 0
when 2
# Class A notation
if b[0] > 0xFF or b[1] > 0xFFFFFF
throw new Error('Invalid IP')
return (b[0] << 24 | b[1]) >>> 0
when 3
# Class B notation
if b[0] > 0xFF or b[1] > 0xFF or b[2] > 0xFFFF
throw new Error('Invalid IP')
return (b[0] << 24 | b[1] << 16 | b[2]) >>> 0
when 4
# Dotted quad notation
if b[0] > 0xFF or b[1] > 0xFF or b[2] > 0xFF or b[3] > 0xFF
throw new Error('Invalid IP')
return (b[0] << 24 | b[1] << 16 | b[2] << 8 | b[3]) >>> 0
else
throw new Error('Invalid IP')
chr = (b) ->
return b.charCodeAt(0)
chr0 = chr('0')
chra = chr('a')
chrA = chr('A')
atob = (s) ->
n = 0
base = 10
dmax = '9'
i = 0
if s.length > 1 and s[i] == '0'
if s[i+1] == 'x' or s[i+1] == 'X'
i += 2
base = 16
else if '0' <= s[i+1] and s[i+1] <= '9'
i++
base = 8
dmax = '7'
start = i
while i < s.length
if '0' <= s[i] and s[i] <= dmax
n = (n*base + (chr(s[i])-chr0)) >>> 0
else if base == 16
if 'a' <= s[i] and s[i] <= 'f'
n = (n*base + (10+chr(s[i])-chra)) >>> 0
else if 'A' <= s[i] and s[i] <= 'F'
n = (n*base + (10+chr(s[i])-chrA)) >>> 0
else
break
else
break
if n > 0xFFFFFFFF
throw new Error('too large')
i++
if i == start
throw new Error('empty octet')
return [n, i]
class Netmask
constructor: (net, mask) ->
throw new Error("Missing `net' parameter") unless typeof net is 'string'
unless mask
# try to find the mask in the net (i.e.: 1.2.3.4/24 or 1.2.3.4/255.255.255.0)
[net, mask] = net.split('/', 2)
unless mask
mask = 32
if typeof mask is 'string' and mask.indexOf('.') > -1
# Compute bitmask, the netmask as a number of bits in the network portion of the address for this block (eg.: 24)
try
@maskLong = ip2long(mask)
catch error
throw new Error("Invalid mask: #{mask}")
for i in [32..0]
if @maskLong == (0xffffffff << (32 - i)) >>> 0
@bitmask = i
break
else if mask or mask == 0
# The mask was passed as bitmask, compute the mask as long from it
@bitmask = parseInt(mask, 10)
@maskLong = 0
if @bitmask > 0
@maskLong = (0xffffffff << (32 - @bitmask)) >>> 0
else
throw new Error("Invalid mask: empty")
try
@netLong = (ip2long(net) & @maskLong) >>> 0
catch error
throw new Error("Invalid net address: #{net}")
throw new Error("Invalid mask for ip4: #{mask}") unless @bitmask <= 32
# The number of IP address in the block (eg.: 254)
@size = Math.pow(2, 32 - @bitmask)
# The address of the network block as a string (eg.: 216.240.32.0)
@base = long2ip(@netLong)
# The netmask as a string (eg.: 255.255.255.0)
@mask = long2ip(@maskLong)
# The host mask, the opposite of the netmask (eg.: 0.0.0.255)
@hostmask = long2ip(~@maskLong)
# The first usable address of the block
@first = if @bitmask <= 30 then long2ip(@netLong + 1) else @base
# The last usable address of the block
@last = if @bitmask <= 30 then long2ip(@netLong + @size - 2) else long2ip(@netLong + @size - 1)
# The block's broadcast address: the last address of the block (eg.: 192.168.1.255)
@broadcast = if @bitmask <= 30 then long2ip(@netLong + @size - 1)
# Returns true if the given ip or netmask is contained in the block
contains: (ip) ->
if typeof ip is 'string' and (ip.indexOf('/') > 0 or ip.split('.').length isnt 4)
ip = new Netmask(ip)
if ip instanceof Netmask
return @contains(ip.base) and @contains((ip.broadcast || ip.last))
else
return (ip2long(ip) & @maskLong) >>> 0 == ((@netLong & @maskLong)) >>> 0
# Returns the Netmask object for the block which follow this one
next: (count=1) ->
return new Netmask(long2ip(@netLong + (@size * count)), @mask)
forEach: (fn) ->
# this implementation is not idiomatic but avoids large memory allocations (2 arrays, one for range and one for the results) in cases when then netmask is large
long = ip2long(@first)
lastLong = ip2long(@last)
index = 0
while long <= lastLong
fn long2ip(long), long, index
index++
long++
return
# Returns the complete netmask formatted as `base/bitmask`
toString: ->
return @base + "/" + @bitmask
exports.ip2long = ip2long
exports.long2ip = long2ip
exports.Netmask = Netmask
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