local SUITE = require 'TestSuite' 'cdata' -- Only relevant in LUAJIT. if type(jit) ~= 'table' or true then return SUITE end SUITE:setEnvironment{ format = require 'pretty', analyze_byte_string = require 'analyze_byte_string', } -------------------------------------------------------------------------------- -- Test stuff. local ffi = require('ffi') ffi.cdef[[ typedef struct foo { int a, b; } foo_t; void free(void *ptr); void *malloc(size_t size); int poll(struct pollfd *fds, unsigned long nfds, int timeout); ]] -- TODO: Add more advanced understanding of cdata. local function format_test (t) SUITE:addTest(t.expect, function () assert_equal(t.expect, format(t.input, t.options)) end) end -------------------------------------------------------------------------------- -- Understanding binary data SUITE:addTest('Understand ascii', function () local str = 'hello world' local info = analyze_byte_string(str) assert_equal('ascii', info.most_likely) end) SUITE:addTest('Understand utf8', function () local str = 'Æh? Hvø Tæler Då Om?' local info = analyze_byte_string(str) assert_equal('utf8', info.most_likely) end) SUITE:addTest('Understand binary', function () local str = '\190\098\140\097\255' local info = analyze_byte_string(str) print(format(info)) assert_equal('binary', info.most_likely) end) SUITE:addTest('More binary', function () local str = '\098\140\097\140\100' local info = analyze_byte_string(str) assert_equal('binary', info.most_likely) end) -------------------------------------------------------------------------------- format_test { input = ffi.C.poll, expect = 'cdata<.+>: 0x%x+', } do local list = ffi.new('char [17]') for i = 0, 16 do list[i] = i end format_test { input = list, expect = 'cdata<.+>: 0x%x+', } end do local list = ffi.new('int [17]') for i = 0, 16 do list[i] = i end format_test { input = list, expect = 'cdata<.+>: 0x%x+', } end do local list = ffi.new('char [10]') for i = 0, 10-1 do list[i] = i + 65 end format_test { input = list, expect = 'cdata<.+>: 0x%x+', } end do local mat = ffi.new('char [3][3]') for x = 0, 2 do for y = 0, 2 do mat[x][y] = x * 16 + y end end format_test { input = mat, expect = 'cdata<.+>: 0x%x+', } end do local p = ffi.gc(ffi.C.malloc(1), ffi.C.free) format_test { input = p, expect = 'cdata<.+>: 0x%x+', } end SUITE:addTest('a_very_small_part_of_math', function () local p = ffi.new('char[1]') p[0] = 27 local actual_result = format(p + 0, {}) assert_equal('Derp', actual_result) end) do local p = ffi.new('foo_t[1]') p[0].a = 27 p[0].b = 27 format_test { input = p + 0, expect = 'cdata<.+>: 0x%x+', } end -------------------------------------------------------------------------------- return SUITE