tomlplusplus/tests/parsing_integers.cpp
Mark Gillard 5ca6b29cb9 added support for implementations without <charconv> (fixes #21)
also:
- fixed some parsing and printing ops being locale-dependent (fixes #19)
- fixed pkgconfig subdir being wrong (fixes #23)
- fixed some parsing errors at EOF when `TOML_EXCEPTIONS = 0`
- fixed some unreferenced variable warnings on older compilers
- fixed some 'maybe-uninitialized' false-positives on GCC9
- added debug/release awareness to CI tests
- added locale awareness to catch test runner
2020-04-07 18:01:22 +03:00

159 lines
5.6 KiB
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#include "tests.h"
TEST_CASE("parsing - integers (decimal)")
{
parsing_should_succeed(
FILE_LINE_ARGS,
S(R"(
int1 = +99
int2 = 42
int3 = 0
int4 = -17
int5 = 1_000
int6 = 5_349_221
int7 = 1_2_3_4_5 # VALID but discouraged
)"sv),
[](table&& tbl) noexcept
{
CHECK(tbl[S("int1")] == 99);
CHECK(tbl[S("int2")] == 42);
CHECK(tbl[S("int3")] == 0);
CHECK(tbl[S("int4")] == -17);
CHECK(tbl[S("int5")] == 1000);
CHECK(tbl[S("int6")] == 5349221);
CHECK(tbl[S("int7")] == 12345);
}
);
// "Each underscore must be surrounded by at least one digit on each side."
parsing_should_fail(FILE_LINE_ARGS, S("int5 = 1__000"sv));
parsing_should_fail(FILE_LINE_ARGS, S("int5 = _1_000"sv));
parsing_should_fail(FILE_LINE_ARGS, S("int5 = 1_000_"sv));
// "Leading zeroes are not allowed."
parsing_should_fail(FILE_LINE_ARGS, S("int1 = +099"sv));
parsing_should_fail(FILE_LINE_ARGS, S("int2 = 042"sv));
parsing_should_fail(FILE_LINE_ARGS, S("int3 = 00"sv));
parsing_should_fail(FILE_LINE_ARGS, S("int4 = -017"sv));
parsing_should_fail(FILE_LINE_ARGS, S("int5 = 01_000"sv));
parsing_should_fail(FILE_LINE_ARGS, S("int6 = 05_349_221"sv));
parsing_should_fail(FILE_LINE_ARGS, S("int7 = 01_2_3_4_5"sv));
// "Integer values -0 and +0 are valid and identical to an unprefixed zero."
parsing_should_succeed(
FILE_LINE_ARGS,
S("zeroes = [-0, +0]"sv),
[](table&& tbl) noexcept
{
CHECK(tbl[S("zeroes")][0] == 0);
CHECK(tbl[S("zeroes")][1] == 0);
}
);
parsing_should_fail(FILE_LINE_ARGS, S("val = +-1"sv));
parsing_should_fail(FILE_LINE_ARGS, S("val = -+1"sv));
parsing_should_fail(FILE_LINE_ARGS, S("val = ++1"sv));
parsing_should_fail(FILE_LINE_ARGS, S("val = --1"sv));
parsing_should_fail(FILE_LINE_ARGS, S("val = 1-"sv));
parsing_should_fail(FILE_LINE_ARGS, S("val = 1+"sv));
parsing_should_fail(FILE_LINE_ARGS, S("val = -1+"sv));
parsing_should_fail(FILE_LINE_ARGS, S("val = +1-"sv));
// value tests
parse_expected_value(FILE_LINE_ARGS, "1234"sv, 1234);
parse_expected_value(FILE_LINE_ARGS, "+1234"sv, 1234);
parse_expected_value(FILE_LINE_ARGS, "-1234"sv, -1234);
parse_expected_value(FILE_LINE_ARGS, "0"sv, 0);
parse_expected_value(FILE_LINE_ARGS, "1_2_3_4"sv, 1234);
parse_expected_value(FILE_LINE_ARGS, "+1_2_3_4"sv, 1234);
parse_expected_value(FILE_LINE_ARGS, "-1_2_3_4"sv, -1234);
parse_expected_value(FILE_LINE_ARGS, "123_456_789"sv, 123456789);
}
TEST_CASE("parsing - integers (hex, bin, oct)")
{
parsing_should_succeed(
FILE_LINE_ARGS,
S(R"(
# hexadecimal with prefix `0x`
hex1 = 0xDEADBEEF
hex2 = 0xdeadbeef
hex3 = 0xdead_beef
# octal with prefix `0o`
oct1 = 0o01234567
oct2 = 0o755 # useful for Unix file permissions
# binary with prefix `0b`
bin1 = 0b11010110
)"sv),
[](table&& tbl) noexcept
{
CHECK(tbl[S("hex1")] == 0xDEADBEEF);
CHECK(tbl[S("hex2")] == 0xDEADBEEF);
CHECK(tbl[S("hex3")] == 0xDEADBEEF);
CHECK(tbl[S("oct1")] == 01234567);
CHECK(tbl[S("oct2")] == 0755);
CHECK(tbl[S("bin1")] == 0b11010110);
}
);
// "leading + is not allowed"
parsing_should_fail(FILE_LINE_ARGS, S("hex1 = +0xDEADBEEF"sv));
parsing_should_fail(FILE_LINE_ARGS, S("hex2 = +0xdeadbeef"sv));
parsing_should_fail(FILE_LINE_ARGS, S("hex3 = +0xdead_beef"sv));
parsing_should_fail(FILE_LINE_ARGS, S("oct1 = +0o01234567"sv));
parsing_should_fail(FILE_LINE_ARGS, S("oct2 = +0o7550"sv));
parsing_should_fail(FILE_LINE_ARGS, S("int6 = +05_349_221"sv));
parsing_should_fail(FILE_LINE_ARGS, S("bin1 = +0b11010110"sv));
// "leading zeros are allowed (after the prefix)"
parsing_should_succeed(
FILE_LINE_ARGS,
S(R"(
hex1 = 0x000DEADBEEF
hex2 = 0x00000deadbeef
hex3 = 0x0dead_beef
oct1 = 0o0001234567
oct2 = 0o000755
bin1 = 0b0000011010110
)"sv),
[](table&& tbl) noexcept
{
CHECK(tbl[S("hex1")] == 0xDEADBEEF);
CHECK(tbl[S("hex2")] == 0xDEADBEEF);
CHECK(tbl[S("hex3")] == 0xDEADBEEF);
CHECK(tbl[S("oct1")] == 01234567);
CHECK(tbl[S("oct2")] == 0755);
CHECK(tbl[S("bin1")] == 0b11010110);
}
);
// "64 bit (signed long) range expected (9,223,372,036,854,775,808 to 9,223,372,036,854,775,807)."
parsing_should_fail(FILE_LINE_ARGS, S("val = 9223372036854775809"sv));
parsing_should_fail(FILE_LINE_ARGS, S("val = 9223372036854775808"sv));
// "***Non-negative*** integer values may also be expressed in hexadecimal, octal, or binary"
parsing_should_fail(FILE_LINE_ARGS, S("val = -0o1"sv));
parsing_should_fail(FILE_LINE_ARGS, S("val = -0b1"sv));
parsing_should_fail(FILE_LINE_ARGS, S("val = -0x1"sv));
// value tests
parse_expected_value(FILE_LINE_ARGS, "0xDEADBEEF"sv, 0xDEADBEEF);
parse_expected_value(FILE_LINE_ARGS, "0xdeadbeef"sv, 0xDEADBEEF);
parse_expected_value(FILE_LINE_ARGS, "0xDEADbeef"sv, 0xDEADBEEF);
parse_expected_value(FILE_LINE_ARGS, "0xDEAD_BEEF"sv, 0xDEADBEEF);
parse_expected_value(FILE_LINE_ARGS, "0xdead_beef"sv, 0xDEADBEEF);
parse_expected_value(FILE_LINE_ARGS, "0xdead_BEEF"sv, 0xDEADBEEF);
parse_expected_value(FILE_LINE_ARGS, "0xFF"sv, 0xFF);
parse_expected_value(FILE_LINE_ARGS, "0x00FF"sv, 0xFF);
parse_expected_value(FILE_LINE_ARGS, "0x0000FF"sv, 0xFF);
parse_expected_value(FILE_LINE_ARGS, "0o777"sv, 0777);
parse_expected_value(FILE_LINE_ARGS, "0o7_7_7"sv, 0777);
parse_expected_value(FILE_LINE_ARGS, "0o007"sv, 0007);
parse_expected_value(FILE_LINE_ARGS, "0b10000"sv, 0b10000);
parse_expected_value(FILE_LINE_ARGS, "0b010000"sv, 0b10000);
parse_expected_value(FILE_LINE_ARGS, "0b01_00_00"sv, 0b10000);
parse_expected_value(FILE_LINE_ARGS, "0b111111"sv, 0b111111);
}