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luaunit.lua
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luaunit.lua
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--[[
luaunit.lua
Description: A unit testing framework
Homepage: https://github.com/bluebird75/luaunit
Development by Philippe Fremy <phil@freehackers.org>
Based on initial work of Ryu, Gwang (http://www.gpgstudy.com/gpgiki/LuaUnit)
License: BSD License, see LICENSE.txt
Version: 3.2
]]--
require("math")
local M={}
-- private exported functions (for testing)
M.private = {}
M.VERSION='3.2'
M._VERSION=M.VERSION -- For LuaUnit v2 compatibility
--[[ Some people like assertEquals( actual, expected ) and some people prefer
assertEquals( expected, actual ).
]]--
M.ORDER_ACTUAL_EXPECTED = true
M.PRINT_TABLE_REF_IN_ERROR_MSG = false
M.TABLE_EQUALS_KEYBYCONTENT = true
M.LINE_LENGTH = 80
M.TABLE_DIFF_ANALYSIS_THRESHOLD = 10 -- display deep analysis for more than 10 items
M.LIST_DIFF_ANALYSIS_THRESHOLD = 10 -- display deep analysis for more than 10 items
--[[ M.EPSILON is meant to help with Lua's floating point math in simple corner
cases like almostEquals(1.1-0.1, 1), which may not work as-is (e.g. on numbers
with rational binary representation) if the user doesn't provide some explicit
error margin.
The default margin used by almostEquals() in such cases is M.EPSILON; and since
Lua may be compiled with different numeric precisions (single vs. double), we
try to select a useful default for it dynamically. Note: If the initial value
is not acceptable, it can be changed by the user to better suit specific needs.
See also: https://en.wikipedia.org/wiki/Machine_epsilon
]]
M.EPSILON = 2^-52 -- = machine epsilon for "double", ~2.22E-16
if math.abs(1.1 - 1 - 0.1) > M.EPSILON then
-- rounding error is above EPSILON, assume single precision
M.EPSILON = 2^-23 -- = machine epsilon for "float", ~1.19E-07
end
-- set this to false to debug luaunit
local STRIP_LUAUNIT_FROM_STACKTRACE = true
M.VERBOSITY_DEFAULT = 10
M.VERBOSITY_LOW = 1
M.VERBOSITY_QUIET = 0
M.VERBOSITY_VERBOSE = 20
M.DEFAULT_DEEP_ANALYSIS = nil
M.FORCE_DEEP_ANALYSIS = true
M.DISABLE_DEEP_ANALYSIS = false
-- set EXPORT_ASSERT_TO_GLOBALS to have all asserts visible as global values
-- EXPORT_ASSERT_TO_GLOBALS = true
-- we need to keep a copy of the script args before it is overriden
local cmdline_argv = rawget(_G, "arg")
M.FAILURE_PREFIX = 'LuaUnit test FAILURE: ' -- prefix string for failed tests
M.USAGE=[[Usage: lua <your_test_suite.lua> [options] [testname1 [testname2] ... ]
Options:
-h, --help: Print this help
--version: Print version information
-v, --verbose: Increase verbosity
-q, --quiet: Set verbosity to minimum
-e, --error: Stop on first error
-f, --failure: Stop on first failure or error
-r, --random Run tests in random order
-o, --output OUTPUT: Set output type to OUTPUT
Possible values: text, tap, junit, nil
-n, --name NAME: For junit only, mandatory name of xml file
-c, --count NUM: Execute all tests NUM times, e.g. to trig the JIT
-p, --pattern PATTERN: Execute all test names matching the Lua PATTERN
May be repeated to include severals patterns
Make sure you escape magic chars like +? with %
-x, --exclude PATTERN: Exclude all test names matching the Lua PATTERN
May be repeated to include severals patterns
Make sure you escape magic chars like +? with %
testname1, testname2, ... : tests to run in the form of testFunction,
TestClass or TestClass.testMethod
]]
local is_equal -- defined here to allow calling from mismatchFormattingPureList
----------------------------------------------------------------
--
-- general utility functions
--
----------------------------------------------------------------
local function pcall_or_abort(func, ...)
-- unpack is a global function for Lua 5.1, otherwise use table.unpack
local unpack = rawget(_G, "unpack") or table.unpack
local result = {pcall(func, ...)}
if not result[1] then
-- an error occurred
print(result[2]) -- error message
print()
print(M.USAGE)
os.exit(-1)
end
return unpack(result, 2)
end
local crossTypeOrdering = {
number = 1, boolean = 2, string = 3, table = 4, other = 5
}
local crossTypeComparison = {
number = function(a, b) return a < b end,
string = function(a, b) return a < b end,
other = function(a, b) return tostring(a) < tostring(b) end,
}
local function crossTypeSort(a, b)
local type_a, type_b = type(a), type(b)
if type_a == type_b then
local func = crossTypeComparison[type_a] or crossTypeComparison.other
return func(a, b)
end
type_a = crossTypeOrdering[type_a] or crossTypeOrdering.other
type_b = crossTypeOrdering[type_b] or crossTypeOrdering.other
return type_a < type_b
end
local function __genSortedIndex( t )
-- Returns a sequence consisting of t's keys, sorted.
local sortedIndex = {}
for key,_ in pairs(t) do
table.insert(sortedIndex, key)
end
table.sort(sortedIndex, crossTypeSort)
return sortedIndex
end
M.private.__genSortedIndex = __genSortedIndex
local function sortedNext(state, control)
-- Equivalent of the next() function of table iteration, but returns the
-- keys in sorted order (see __genSortedIndex and crossTypeSort).
-- The state is a temporary variable during iteration and contains the
-- sorted key table (state.sortedIdx). It also stores the last index (into
-- the keys) used by the iteration, to find the next one quickly.
local key
--print("sortedNext: control = "..tostring(control) )
if control == nil then
-- start of iteration
state.count = #state.sortedIdx
state.lastIdx = 1
key = state.sortedIdx[1]
return key, state.t[key]
end
-- normally, we expect the control variable to match the last key used
if control ~= state.sortedIdx[state.lastIdx] then
-- strange, we have to find the next value by ourselves
-- the key table is sorted in crossTypeSort() order! -> use bisection
local lower, upper = 1, state.count
repeat
state.lastIdx = math.modf((lower + upper) / 2)
key = state.sortedIdx[state.lastIdx]
if key == control then
break -- key found (and thus prev index)
end
if crossTypeSort(key, control) then
-- key < control, continue search "right" (towards upper bound)
lower = state.lastIdx + 1
else
-- key > control, continue search "left" (towards lower bound)
upper = state.lastIdx - 1
end
until lower > upper
if lower > upper then -- only true if the key wasn't found, ...
state.lastIdx = state.count -- ... so ensure no match in code below
end
end
-- proceed by retrieving the next value (or nil) from the sorted keys
state.lastIdx = state.lastIdx + 1
key = state.sortedIdx[state.lastIdx]
if key then
return key, state.t[key]
end
-- getting here means returning `nil`, which will end the iteration
end
local function sortedPairs(tbl)
-- Equivalent of the pairs() function on tables. Allows to iterate in
-- sorted order. As required by "generic for" loops, this will return the
-- iterator (function), an "invariant state", and the initial control value.
-- (see http://www.lua.org/pil/7.2.html)
return sortedNext, {t = tbl, sortedIdx = __genSortedIndex(tbl)}, nil
end
M.private.sortedPairs = sortedPairs
-- seed the random with a strongly varying seed
math.randomseed(os.clock()*1E11)
local function randomizeTable( t )
-- randomize the item orders of the table t
for i = #t, 2, -1 do
local j = math.random(i)
if i ~= j then
t[i], t[j] = t[j], t[i]
end
end
end
M.private.randomizeTable = randomizeTable
local function strsplit(delimiter, text)
-- Split text into a list consisting of the strings in text, separated
-- by strings matching delimiter (which may _NOT_ be a pattern).
-- Example: strsplit(", ", "Anna, Bob, Charlie, Dolores")
if delimiter == "" then -- this would result in endless loops
error("delimiter matches empty string!")
end
local list, pos, first, last = {}, 1
while true do
first, last = text:find(delimiter, pos, true)
if first then -- found?
table.insert(list, text:sub(pos, first - 1))
pos = last + 1
else
table.insert(list, text:sub(pos))
break
end
end
return list
end
M.private.strsplit = strsplit
local function hasNewLine( s )
-- return true if s has a newline
return (string.find(s, '\n', 1, true) ~= nil)
end
M.private.hasNewLine = hasNewLine
local function prefixString( prefix, s )
-- Prefix all the lines of s with prefix
return prefix .. string.gsub(s, '\n', '\n' .. prefix)
end
M.private.prefixString = prefixString
local function strMatch(s, pattern, start, final )
-- return true if s matches completely the pattern from index start to index end
-- return false in every other cases
-- if start is nil, matches from the beginning of the string
-- if final is nil, matches to the end of the string
start = start or 1
final = final or string.len(s)
local foundStart, foundEnd = string.find(s, pattern, start, false)
return foundStart == start and foundEnd == final
end
M.private.strMatch = strMatch
local function patternFilter(patterns, expr, nil_result)
-- Check if any of `patterns` is contained in `expr`. If so, return `true`.
-- Return `false` if none of the patterns are contained in expr. If patterns
-- is `nil` (= unset), return default value passed in `nil_result`.
if patterns ~= nil then
for _, pattern in ipairs(patterns) do
if string.find(expr, pattern) then
return true
end
end
return false -- no match from patterns
end
return nil_result
end
M.private.patternFilter = patternFilter
local function xmlEscape( s )
-- Return s escaped for XML attributes
-- escapes table:
-- " "
-- ' '
-- < <
-- > >
-- & &
return string.gsub( s, '.', {
['&'] = "&",
['"'] = """,
["'"] = "'",
['<'] = "<",
['>'] = ">",
} )
end
M.private.xmlEscape = xmlEscape
local function xmlCDataEscape( s )
-- Return s escaped for CData section, escapes: "]]>"
return string.gsub( s, ']]>', ']]>' )
end
M.private.xmlCDataEscape = xmlCDataEscape
local function stripLuaunitTrace( stackTrace )
--[[
-- Example of a traceback:
<<stack traceback:
example_with_luaunit.lua:130: in function 'test2_withFailure'
./luaunit.lua:1449: in function <./luaunit.lua:1449>
[C]: in function 'xpcall'
./luaunit.lua:1449: in function 'protectedCall'
./luaunit.lua:1508: in function 'execOneFunction'
./luaunit.lua:1596: in function 'runSuiteByInstances'
./luaunit.lua:1660: in function 'runSuiteByNames'
./luaunit.lua:1736: in function 'runSuite'
example_with_luaunit.lua:140: in main chunk
[C]: in ?>>
Other example:
<<stack traceback:
./luaunit.lua:545: in function 'assertEquals'
example_with_luaunit.lua:58: in function 'TestToto.test7'
./luaunit.lua:1517: in function <./luaunit.lua:1517>
[C]: in function 'xpcall'
./luaunit.lua:1517: in function 'protectedCall'
./luaunit.lua:1578: in function 'execOneFunction'
./luaunit.lua:1677: in function 'runSuiteByInstances'
./luaunit.lua:1730: in function 'runSuiteByNames'
./luaunit.lua:1806: in function 'runSuite'
example_with_luaunit.lua:140: in main chunk
[C]: in ?>>
<<stack traceback:
luaunit2/example_with_luaunit.lua:124: in function 'test1_withFailure'
luaunit2/luaunit.lua:1532: in function <luaunit2/luaunit.lua:1532>
[C]: in function 'xpcall'
luaunit2/luaunit.lua:1532: in function 'protectedCall'
luaunit2/luaunit.lua:1591: in function 'execOneFunction'
luaunit2/luaunit.lua:1679: in function 'runSuiteByInstances'
luaunit2/luaunit.lua:1743: in function 'runSuiteByNames'
luaunit2/luaunit.lua:1819: in function 'runSuite'
luaunit2/example_with_luaunit.lua:140: in main chunk
[C]: in ?>>
-- first line is "stack traceback": KEEP
-- next line may be luaunit line: REMOVE
-- next lines are call in the program under testOk: REMOVE
-- next lines are calls from luaunit to call the program under test: KEEP
-- Strategy:
-- keep first line
-- remove lines that are part of luaunit
-- kepp lines until we hit a luaunit line
]]
local function isLuaunitInternalLine( s )
-- return true if line of stack trace comes from inside luaunit
return s:find('[/\\]luaunit%.lua:%d+: ') ~= nil
end
-- print( '<<'..stackTrace..'>>' )
local t = strsplit( '\n', stackTrace )
-- print( prettystr(t) )
local idx = 2
-- remove lines that are still part of luaunit
while t[idx] and isLuaunitInternalLine( t[idx] ) do
-- print('Removing : '..t[idx] )
table.remove(t, idx)
end
-- keep lines until we hit luaunit again
while t[idx] and (not isLuaunitInternalLine(t[idx])) do
-- print('Keeping : '..t[idx] )
idx = idx + 1
end
-- remove remaining luaunit lines
while t[idx] do
-- print('Removing : '..t[idx] )
table.remove(t, idx)
end
-- print( prettystr(t) )
return table.concat( t, '\n')
end
M.private.stripLuaunitTrace = stripLuaunitTrace
local function prettystr_sub(v, indentLevel, keeponeline, printTableRefs, recursionTable )
local type_v = type(v)
if "string" == type_v then
if keeponeline then
v = v:gsub("\n", "\\n") -- escape newline(s)
end
-- use clever delimiters according to content:
-- enclose with single quotes if string contains ", but no '
if v:find('"', 1, true) and not v:find("'", 1, true) then
return "'" .. v .. "'"
end
-- use double quotes otherwise, escape embedded "
return '"' .. v:gsub('"', '\\"') .. '"'
elseif "table" == type_v then
--if v.__class__ then
-- return string.gsub( tostring(v), 'table', v.__class__ )
--end
return M.private._table_tostring(v, indentLevel, keeponeline,
printTableRefs, recursionTable)
elseif "number" == type_v then
-- eliminate differences in formatting between various Lua versions
if v ~= v then
return "#NaN" -- "not a number"
end
if v == math.huge then
return "#Inf" -- "infinite"
end
if v == -math.huge then
return "-#Inf"
end
if _VERSION == "Lua 5.3" then
local i = math.tointeger(v)
if i then
return tostring(i)
end
end
end
return tostring(v)
end
local function prettystr( v, keeponeline )
--[[ Better string conversion, to display nice variable content:
For strings, if keeponeline is set to true, string is displayed on one line, with visible \n
* string are enclosed with " by default, or with ' if string contains a "
* if table is a class, display class name
* tables are expanded
]]--
local recursionTable = {}
local s = prettystr_sub(v, 1, keeponeline, M.PRINT_TABLE_REF_IN_ERROR_MSG, recursionTable)
if recursionTable.recursionDetected and not M.PRINT_TABLE_REF_IN_ERROR_MSG then
-- some table contain recursive references,
-- so we must recompute the value by including all table references
-- else the result looks like crap
recursionTable = {}
s = prettystr_sub(v, 1, keeponeline, true, recursionTable)
end
return s
end
M.prettystr = prettystr
local function tryMismatchFormatting( table_a, table_b, doDeepAnalysis )
--[[
Prepares a nice error message when comparing tables, performing a deeper
analysis.
Arguments:
* table_a, table_b: tables to be compared
* doDeepAnalysis:
M.DEFAULT_DEEP_ANALYSIS: (the default if not specified) perform deep analysis only for big lists and big dictionnaries
M.FORCE_DEEP_ANALYSIS : always perform deep analysis
M.DISABLE_DEEP_ANALYSIS: never perform deep analysis
Returns: {success, result}
* success: false if deep analysis could not be performed
in this case, just use standard assertion message
* result: if success is true, a multi-line string with deep analysis of the two lists
]]
-- check if table_a & table_b are suitable for deep analysis
if type(table_a) ~= 'table' or type(table_b) ~= 'table' then
return false
end
if doDeepAnalysis == M.DISABLE_DEEP_ANALYSIS then
return false
end
local len_a, len_b, isPureList = #table_a, #table_b, true
for k1, v1 in pairs(table_a) do
if type(k1) ~= 'number' or k1 > len_a then
-- this table a mapping
isPureList = false
break
end
end
if isPureList then
for k2, v2 in pairs(table_b) do
if type(k2) ~= 'number' or k2 > len_b then
-- this table a mapping
isPureList = false
break
end
end
end
if isPureList and math.min(len_a, len_b) < M.LIST_DIFF_ANALYSIS_THRESHOLD then
if not (doDeepAnalysis == M.FORCE_DEEP_ANALYSIS) then
return false
end
end
if isPureList then
return M.private.mismatchFormattingPureList( table_a, table_b )
else
-- only work on mapping for the moment
-- return M.private.mismatchFormattingMapping( table_a, table_b, doDeepAnalysis )
return false
end
end
M.private.tryMismatchFormatting = tryMismatchFormatting
local function getTaTbDescr()
if not M.ORDER_ACTUAL_EXPECTED then
return 'expected', 'actual'
end
return 'actual', 'expected'
end
local function extendWithStrFmt( res, ... )
table.insert( res, string.format( ... ) )
end
local function mismatchFormattingMapping( table_a, table_b, doDeepAnalysis )
--[[
Prepares a nice error message when comparing tables which are not pure lists, performing a deeper
analysis.
Returns: {success, result}
* success: false if deep analysis could not be performed
in this case, just use standard assertion message
* result: if success is true, a multi-line string with deep analysis of the two lists
]]
-- disable for the moment
--[[
local result = {}
local descrTa, descrTb = getTaTbDescr()
local keysCommon = {}
local keysOnlyTa = {}
local keysOnlyTb = {}
local keysDiffTaTb = {}
local k, v
for k,v in pairs( table_a ) do
if is_equal( v, table_b[k] ) then
table.insert( keysCommon, k )
else
if table_b[k] == nil then
table.insert( keysOnlyTa, k )
else
table.insert( keysDiffTaTb, k )
end
end
end
for k,v in pairs( table_b ) do
if not is_equal( v, table_a[k] ) and table_a[k] == nil then
table.insert( keysOnlyTb, k )
end
end
local len_a = #keysCommon + #keysDiffTaTb + #keysOnlyTa
local len_b = #keysCommon + #keysDiffTaTb + #keysOnlyTb
local limited_display = (len_a < 5 or len_b < 5)
if math.min(len_a, len_b) < M.TABLE_DIFF_ANALYSIS_THRESHOLD then
return false
end
if not limited_display then
if len_a == len_b then
extendWithStrFmt( result, 'Table A (%s) and B (%s) both have %d items', descrTa, descrTb, len_a )
else
extendWithStrFmt( result, 'Table A (%s) has %d items and table B (%s) has %d items', descrTa, len_a, descrTb, len_b )
end
if #keysCommon == 0 and #keysDiffTaTb == 0 then
table.insert( result, 'Table A and B have no keys in common, they are totally different')
else
local s_other = 'other '
if #keysCommon then
extendWithStrFmt( result, 'Table A and B have %d identical items', #keysCommon )
else
table.insert( result, 'Table A and B have no identical items' )
s_other = ''
end
if #keysDiffTaTb ~= 0 then
result[#result] = string.format( '%s and %d items differing present in both tables', result[#result], #keysDiffTaTb)
else
result[#result] = string.format( '%s and no %sitems differing present in both tables', result[#result], s_other, #keysDiffTaTb)
end
end
extendWithStrFmt( result, 'Table A has %d keys not present in table B and table B has %d keys not present in table A', #keysOnlyTa, #keysOnlyTb )
end
local function keytostring(k)
if "string" == type(k) and k:match("^[_%a][_%w]*$") then
return k
end
return prettystr(k)
end
if #keysDiffTaTb ~= 0 then
table.insert( result, 'Items differing in A and B:')
for k,v in sortedPairs( keysDiffTaTb ) do
extendWithStrFmt( result, ' - A[%s]: %s', keytostring(v), prettystr(table_a[v]) )
extendWithStrFmt( result, ' + B[%s]: %s', keytostring(v), prettystr(table_b[v]) )
end
end
if #keysOnlyTa ~= 0 then
table.insert( result, 'Items only in table A:' )
for k,v in sortedPairs( keysOnlyTa ) do
extendWithStrFmt( result, ' - A[%s]: %s', keytostring(v), prettystr(table_a[v]) )
end
end
if #keysOnlyTb ~= 0 then
table.insert( result, 'Items only in table B:' )
for k,v in sortedPairs( keysOnlyTb ) do
extendWithStrFmt( result, ' + B[%s]: %s', keytostring(v), prettystr(table_b[v]) )
end
end
if #keysCommon ~= 0 then
table.insert( result, 'Items common to A and B:')
for k,v in sortedPairs( keysCommon ) do
extendWithStrFmt( result, ' = A and B [%s]: %s', keytostring(v), prettystr(table_a[v]) )
end
end
return true, table.concat( result, '\n')
]]
end
M.private.mismatchFormattingMapping = mismatchFormattingMapping
local function mismatchFormattingPureList( table_a, table_b )
--[[
Prepares a nice error message when comparing tables which are lists, performing a deeper
analysis.
Returns: {success, result}
* success: false if deep analysis could not be performed
in this case, just use standard assertion message
* result: if success is true, a multi-line string with deep analysis of the two lists
]]
local result, descrTa, descrTb = {}, getTaTbDescr()
local len_a, len_b, refa, refb = #table_a, #table_b, '', ''
if M.PRINT_TABLE_REF_IN_ERROR_MSG then
refa, refb = string.format( '<%s> ', tostring(table_a)), string.format('<%s> ', tostring(table_b) )
end
local longest, shortest = math.max(len_a, len_b), math.min(len_a, len_b)
local deltalv = longest - shortest
local commonUntil = longest
for i = 1, longest do
if not is_equal(table_a[i], table_b[i]) then
commonUntil = i - 1
break
end
end
local commonBackTo = shortest - 1
for i = 0, shortest - 1 do
if not is_equal(table_a[len_a-i], table_b[len_b-i]) then
commonBackTo = i - 1
break
end
end
table.insert( result, 'List difference analysis:' )
if len_a == len_b then
-- TODO: handle expected/actual naming
extendWithStrFmt( result, '* lists %sA (%s) and %sB (%s) have the same size', refa, descrTa, refb, descrTb )
else
extendWithStrFmt( result, '* list sizes differ: list %sA (%s) has %d items, list %sB (%s) has %d items', refa, descrTa, len_a, refb, descrTb, len_b )
end
extendWithStrFmt( result, '* lists A and B start differing at index %d', commonUntil+1 )
if commonBackTo >= 0 then
if deltalv > 0 then
extendWithStrFmt( result, '* lists A and B are equal again from index %d for A, %d for B', len_a-commonBackTo, len_b-commonBackTo )
else
extendWithStrFmt( result, '* lists A and B are equal again from index %d', len_a-commonBackTo )
end
end
local function insertABValue(ai, bi)
bi = bi or ai
if is_equal( table_a[ai], table_b[bi]) then
return extendWithStrFmt( result, ' = A[%d], B[%d]: %s', ai, bi, prettystr(table_a[ai]) )
else
extendWithStrFmt( result, ' - A[%d]: %s', ai, prettystr(table_a[ai]))
extendWithStrFmt( result, ' + B[%d]: %s', bi, prettystr(table_b[bi]))
end
end
-- common parts to list A & B, at the beginning
if commonUntil > 0 then
table.insert( result, '* Common parts:' )
for i = 1, commonUntil do
insertABValue( i )
end
end
-- diffing parts to list A & B
if commonUntil < shortest - commonBackTo - 1 then
table.insert( result, '* Differing parts:' )
for i = commonUntil + 1, shortest - commonBackTo - 1 do
insertABValue( i )
end
end
-- display indexes of one list, with no match on other list
if shortest - commonBackTo <= longest - commonBackTo - 1 then
table.insert( result, '* Present only in one list:' )
for i = shortest - commonBackTo, longest - commonBackTo - 1 do
if len_a > len_b then
extendWithStrFmt( result, ' - A[%d]: %s', i, prettystr(table_a[i]) )
-- table.insert( result, '+ (no matching B index)')
else
-- table.insert( result, '- no matching A index')
extendWithStrFmt( result, ' + B[%d]: %s', i, prettystr(table_b[i]) )
end
end
end
-- common parts to list A & B, at the end
if commonBackTo >= 0 then
table.insert( result, '* Common parts at the end of the lists' )
for i = longest - commonBackTo, longest do
if len_a > len_b then
insertABValue( i, i-deltalv )
else
insertABValue( i-deltalv, i )
end
end
end
return true, table.concat( result, '\n')
end
M.private.mismatchFormattingPureList = mismatchFormattingPureList
local function prettystrPairs(value1, value2, suffix_a, suffix_b)
--[[
This function helps with the recurring task of constructing the "expected
vs. actual" error messages. It takes two arbitrary values and formats
corresponding strings with prettystr().
To keep the (possibly complex) output more readable in case the resulting
strings contain line breaks, they get automatically prefixed with additional
newlines. Both suffixes are optional (default to empty strings), and get
appended to the "value1" string. "suffix_a" is used if line breaks were
encountered, "suffix_b" otherwise.
Returns the two formatted strings (including padding/newlines).
]]
local str1, str2 = prettystr(value1), prettystr(value2)
if hasNewLine(str1) or hasNewLine(str2) then
-- line break(s) detected, add padding
return "\n" .. str1 .. (suffix_a or ""), "\n" .. str2
end
return str1 .. (suffix_b or ""), str2
end
M.private.prettystrPairs = prettystrPairs
local TABLE_TOSTRING_SEP = ", "
local TABLE_TOSTRING_SEP_LEN = string.len(TABLE_TOSTRING_SEP)
local function _table_tostring( tbl, indentLevel, keeponeline, printTableRefs, recursionTable )
printTableRefs = printTableRefs or M.PRINT_TABLE_REF_IN_ERROR_MSG
recursionTable = recursionTable or {}
recursionTable[tbl] = true
local result, dispOnMultLines = {}, false
-- like prettystr but do not enclose with "" if the string is just alphanumerical
-- this is better for displaying table keys who are often simple strings
local function keytostring(k)
if "string" == type(k) and k:match("^[_%a][_%w]*$") then
return k
end
return prettystr_sub(k, indentLevel+1, true, printTableRefs, recursionTable)
end
local entry, count, seq_index = nil, 0, 1
for k, v in sortedPairs( tbl ) do
if k == seq_index then
-- for the sequential part of tables, we'll skip the "<key>=" output
entry = ''
seq_index = seq_index + 1
elseif recursionTable[k] then
-- recursion in the key detected
recursionTable.recursionDetected = true
entry = "<"..tostring(k)..">="
else
entry = keytostring(k) .. "="
end
if recursionTable[v] then
-- recursion in the value detected!
recursionTable.recursionDetected = true
entry = entry .. "<"..tostring(v)..">"
else
entry = entry ..
prettystr_sub( v, indentLevel+1, keeponeline, printTableRefs, recursionTable )
end
count = count + 1
result[count] = entry
end
if not keeponeline then
-- set dispOnMultLines if the maximum LINE_LENGTH would be exceeded
local totalLength = 0
for k, v in ipairs( result ) do
totalLength = totalLength + string.len( v )
if totalLength >= M.LINE_LENGTH then
dispOnMultLines = true
break
end
end
if not dispOnMultLines then
-- adjust with length of separator(s):
-- two items need 1 sep, three items two seps, ... plus len of '{}'
if count > 0 then
totalLength = totalLength + TABLE_TOSTRING_SEP_LEN * (count - 1)
end
dispOnMultLines = totalLength + 2 >= M.LINE_LENGTH
end
end
-- now reformat the result table (currently holding element strings)
if dispOnMultLines then
local indentString = string.rep(" ", indentLevel - 1)
result = {"{\n ", indentString,
table.concat(result, ",\n " .. indentString), "\n",
indentString, "}"}
else
result = {"{", table.concat(result, TABLE_TOSTRING_SEP), "}"}
end
if printTableRefs then
table.insert(result, 1, "<"..tostring(tbl).."> ") -- prepend table ref
end
return table.concat(result)
end
M.private._table_tostring = _table_tostring -- prettystr_sub() needs it
local function _table_contains(t, element)
if type(t) == "table" then
local type_e = type(element)
for _, value in pairs(t) do
if type(value) == type_e then
if value == element then
return true
end
if type_e == 'table' then
-- if we wanted recursive items content comparison, we could use
-- _is_table_items_equals(v, expected) but one level of just comparing
-- items is sufficient
if M.private._is_table_equals( value, element ) then
return true
end
end
end
end
end
return false
end
local function _is_table_items_equals(actual, expected )
local type_a, type_e = type(actual), type(expected)
if (type_a == 'table') and (type_e == 'table') then
for k, v in pairs(actual) do
if not _table_contains(expected, v) then
return false
end
end
for k, v in pairs(expected) do
if not _table_contains(actual, v) then
return false
end
end
return true
elseif type_a ~= type_e then
return false
elseif actual ~= expected then
return false
end
return true
end
--[[
This is a specialized metatable to help with the bookkeeping of recursions
in _is_table_equals(). It provides an __index table that implements utility
functions for easier management of the table. The "cached" method queries
the state of a specific (actual,expected) pair; and the "store" method sets
this state to the given value. The state of pairs not "seen" / visited is
assumed to be `nil`.
]]
local _recursion_cache_MT = {
__index = {
-- Return the cached value for an (actual,expected) pair (or `nil`)
cached = function(t, actual, expected)
local subtable = t[actual] or {}
return subtable[expected]
end,
-- Store cached value for a specific (actual,expected) pair.
-- Returns the value, so it's easy to use for a "tailcall" (return ...).
store = function(t, actual, expected, value, asymmetric)
local subtable = t[actual]
if not subtable then
subtable = {}
t[actual] = subtable
end
subtable[expected] = value
-- Unless explicitly marked "asymmetric": Consider the recursion
-- on (expected,actual) to be equivalent to (actual,expected) by
-- default, and thus cache the value for both.
if not asymmetric then
t:store(expected, actual, value, true)
end
return value
end
}
}
local function _is_table_equals(actual, expected, recursions)
local type_a, type_e = type(actual), type(expected)
recursions = recursions or setmetatable({}, _recursion_cache_MT)
if type_a ~= type_e then
return false -- different types won't match
end
if (type_a == 'table') --[[ and (type_e == 'table') ]] then
if actual == expected then
-- Both reference the same table, so they are actually identical
return recursions:store(actual, expected, true)
end
-- If we've tested this (actual,expected) pair before: return cached value
local previous = recursions:cached(actual, expected)
if previous ~= nil then
return previous
end
-- Mark this (actual,expected) pair, so we won't recurse it again. For
-- now, assume a "false" result, which we might adjust later if needed.
recursions:store(actual, expected, false)
-- Tables must have identical element count, or they can't match.
if (#actual ~= #expected) then
return false
end
local actualKeysMatched, actualTableKeys = {}, {}
for k, v in pairs(actual) do
if M.TABLE_EQUALS_KEYBYCONTENT and type(k) == "table" then
-- If the keys are tables, things get a bit tricky here as we
-- can have _is_table_equals(t[k1], t[k2]) despite k1 ~= k2. So
-- we first collect table keys from "actual", and then later try
-- to match each table key from "expected" to actualTableKeys.
table.insert(actualTableKeys, k)
else
if not _is_table_equals(v, expected[k], recursions) then
return false -- Mismatch on value, tables can't be equal
end
actualKeysMatched[k] = true -- Keep track of matched keys
end