hammer/lib/test-suite

# This file is to be processed with testgen.pl to produce test suites
# for bindings.  The only escape code that is valid is \x

# The only type that may change between bindings is "char", which gets
# converted into the most convenient representation of a character in
# a given language.  In C, this is a TT_UINT; in P*, it's a
# single-character string.  In this file, a character is wrapped with
# single quotes.

# Strings may be given in C syntax, with no escapes other than \xHH or
# in hex syntax, like <31.32.33> for "123".

# indirect/bind_indirect can be used via subparsers.  A subparser is
# introduced with a "subparser $<name> = <definition()>;" command.
# First, all subparsers are declared with h_indirect().  Then, they
# are all bound.  Inside a definition, all subparsers can be
# referenced by $<name>.

token {
  parser token("95\xa2");
  test "95\xa2" --> "95\xa2";
  test "95\xa2" --> fail;
}

ch {
  parser ch(0xA2);
  test "\xa2" --> '\xa2';
  test "\xa3" --> fail;
}

ch_range {
  parser ch_range(0x61,0x63);
  test "b" --> 'b';
  test "d" --> fail;
}

int64 {
  parser int64();
  test <ff.ff.ff.fe.00.00.00.00> --> s-0x200000000;
  test <ff.ff.ff.fe.00.00.00> --> fail;
}

int32 {
  parser int32();
  test <ff.fe.00.00> --> s-0x20000;
  test <ff.fe.00> --> fail;
  test <00.02.00.00> --> s0x20000;
  test <00.02.00> --> fail;
}

int16 {
  parser int16();
  test <fe.00> --> s-0x200;
  test <fe> --> fail;
  test <02.00> --> s0x200;
  test <02> --> fail;
}

int8 {
  parser int8();
  test <88> --> s-0x78;
  test <> --> fail;
}

uint64 {
  parser uint64();
  test <00.00.00.02.00.00.00.00> --> u0x200000000;
  test <00.00.00.02.00.00.00> --> fail;
}

uint32 {
  parser uint32();
  test <00.02.00.00> --> u0x20000;
  test <00.02.00> --> fail;
}

uint16 {
  parser uint16();
  test <02.00> --> u0x200;
  test <02> --> fail;
}

uint8 {
  parser uint8();
  test <78> --> u0x78;
  test <> --> fail;
}

int_range {
  parser int_range(uint8(), 0x3, 0x10);
  test <05> --> u0x05;
  test <0b> --> fail;
}

whitespace {
  parser whitespace(ch(0x61));
  test "a" --> 'a';
  test " a" --> 'a';
  test "  a" --> 'a';
  test "\x09a" --> 'a';
  test "_a" --> fail;

  parser whitespace(end_p());
  test "" --> none;
  test "  " --> none;
  test "  x" --> fail;
}

left {
  parser left(ch(0x61), ch(0x20));
  test "a " --> 'a';
  test "a" --> fail;
  test " " --> fail;
  test "ba" --> fail;
}

middle {
  parser middle(ch(' '), ch('a'), ch(' '));
  test " a " --> 'a';
  test "a" --> fail;
  test " a" --> fail;
  test "a " --> fail;
  test " b " --> fail;
  test "ba " --> fail;
  test " ab" --> fail;
}

# TODO: action

in {
  parser in("abc");
  test "b" --> 'b';
  test "d" --> fail;
}

not_in {
  parser not_in("abc");
  test "d" --> 'd';
  test "a" --> fail;
}

end_p {
  parser sequence(ch('a'), end_p());
  test "a" --> ['a'];
  test "aa" --> fail;
}

nothing_p {
  parser nothing_p();
  test "a" --> fail;
}

sequence {
  parser sequence(ch('a'), ch('b'));
  test "ab" --> ['a', 'b'];
  test "a" --> fail;
  test "b" --> fail;

  parser sequence(ch('a'), whitespace(ch('b')));
  test "ab" --> ['a','b'];
  test "a b" --> ['a','b'];
  test "a  b" --> ['a','b'];
}

choice {
  parser choice(ch('a'), ch('b'));
  test "a" --> 'a';
  test "b" --> 'b';
  test "ab" --> 'a';
  test "c" --> fail;
}

butnot {
  parser butnot(ch('a'), token("ab"));
  test "a" --> 'a';
  test "ab" --> fail;
  test "aa" --> 'a';

  parser butnot(ch_range('0','9'), ch('6'));
  test "5" --> '5';
  test "6" --> fail;
}

difference {
  # Not sure this actually tests anything
  parser difference(token("ab"), ch('a'));
  test "ab" --> "ab";
  test "a" --> fail;
}

xor {
  parser xor(ch_range('0','6'), ch_range('5','9'));
  test "0" --> '0';
  test "9" --> '9';
  test "5" --> fail;
  test "a" --> fail;
}

many {
  # TODO: Some of the parsers in the original were commented out.
  parser many(choice(ch('a'), ch('b')));
  test "" --> [];
  test "a" --> ['a'];
  test "b" --> ['b'];
  test "aabbaba" --> ['a','a','b','b','a','b','a'];
}

many1 {
  # TODO: Some of the checks in the original were commented out.
  parser many1(choice(ch('a'),ch('b')));
  test "" --> fail;
  test "a" --> ['a'];
  test "b" --> ['b'];
  test "aabbaba" --> ['a','a','b','b','a','b','a'];
  test "daabbabadef" --> fail;
}

repeat-n {
  parser repeat_n(choice(ch('a'),ch('b')),0x2);
  test "adef" --> fail;
  test "abdef" --> ['a','b'];
  test "dabdef" --> fail;
}

optional {
  parser sequence(ch('a'), optional(choice(ch('b'),ch('c'))), ch('d'));
  test "abd" --> ['a','b','d'];
  test "acd" --> ['a','c','d'];
  test "ad" --> ['a',none,'d'];
  test "aed" --> fail;
  test "ab" --> fail;
  test "ac" --> fail;
}

ignore {
  parser sequence(ch('a'), ignore(ch('b')), ch('c'));
  test "abc" --> ['a','c'];
  test "ac" --> fail;
}

sepBy {
  parser sepBy(choice(ch('1'), ch('2'), ch('3')), ch(','));
  test "1,2,3" --> ['1','2','3'];
  test "1,3,2" --> ['1','3','2'];
  test "1,3" --> ['1','3'];
  test "3" --> ['3'];
  test "" --> [];
}

sepBy1 {
  parser sepBy1(choice(ch('1'), ch('2'), ch('3')), ch(','));
  test "1,2,3" --> ['1','2','3'];
  test "1,3,2" --> ['1','3','2'];
  test "1,3" --> ['1','3'];
  test "3" --> ['3'];
  test "" --> fail;
}

# TODO: attr_bool;
and {
  parser sequence(and(ch('0')), ch('0'));
  test "0" --> ['0'];
  test "1" --> fail;
  parser sequence(and(ch('0')), ch('1'));
  test "0" --> fail;
  test "1" --> fail;
  parser sequence(ch('1'), and(ch('2')));
  test "12" --> ['1'];
  test "13" --> fail;
}

not {
  parser sequence(ch('a'), choice(token('+'), token("++")), ch('b'));
  test "a+b" --> ['a',"+",'b'];
  test "a++b" --> fail;

  parser sequence(ch('a'), choice(sequence(token('+'), not(ch('+'))),
                                  token("++")),
                  ch('b'));
  test "a+b" --> ['a', ["+"], 'b'];
  test "a++b" --> ['a', "++", 'b'];
}

leftrec {
  subparser $lr = choice(sequence($lr, ch('a')), epsilon_p());
  parser $lr;
  test "a" --> ['a'];
  test "aa" --> [['a'],'a'];
  test "aaa" --> [[['a'],'a'],'a'];
}

rightrec {
  subparser $rr = choice(sequence(ch('a'), $rr), epsilon_p());
  parser $rr;
  test "a" --> ['a'];
  test "aa" --> ['a',['a']];
  test "aaa" --> ['a',['a',['a']]];
}

ambiguous {
  subparser $d = ch('d');
  subparser $p = ch('+');
  subparser $e = choice(sequence($e, $p, $e), $d);
  # TODO: implement action/h_act_flatten
  parser $e;
  
  test "d" --> 'd';
  test "d+d" --> ['d','+','d'];
  test "d+d+d" --> [['d','+','d'],'+','d'];
}
Wrote parser for language-independent test suite, ported tests to it 2013-12-16 15:54:21 +01:00			`# This file is to be processed with testgen.pl to produce test suites`
			`# for bindings. The only escape code that is valid is \x`

			`# The only type that may change between bindings is "char", which gets`
			`# converted into the most convenient representation of a character in`
			`# a given language. In C, this is a TT_UINT; in P*, it's a`
			`# single-character string. In this file, a character is wrapped with`
			`# single quotes.`

			`# Strings may be given in C syntax, with no escapes other than \xHH or`
			`# in hex syntax, like <31.32.33> for "123".`

			`# indirect/bind_indirect can be used via subparsers. A subparser is`
			`# introduced with a "subparser $<name> = <definition()>;" command.`
			`# First, all subparsers are declared with h_indirect(). Then, they`
			`# are all bound. Inside a definition, all subparsers can be`
			`# referenced by $<name>.`

			`token {`
			`parser token("95\xa2");`
			`test "95\xa2" --> "95\xa2";`
			`test "95\xa2" --> fail;`
			`}`

			`ch {`
			`parser ch(0xA2);`
			`test "\xa2" --> '\xa2';`
			`test "\xa3" --> fail;`
			`}`

			`ch_range {`
			`parser ch_range(0x61,0x63);`
			`test "b" --> 'b';`
			`test "d" --> fail;`
			`}`

			`int64 {`
			`parser int64();`
			`test <ff.ff.ff.fe.00.00.00.00> --> s-0x200000000;`
			`test <ff.ff.ff.fe.00.00.00> --> fail;`
			`}`

			`int32 {`
			`parser int32();`
			`test <ff.fe.00.00> --> s-0x20000;`
			`test <ff.fe.00> --> fail;`
			`test <00.02.00.00> --> s0x20000;`
			`test <00.02.00> --> fail;`
			`}`

			`int16 {`
			`parser int16();`
			`test <fe.00> --> s-0x200;`
			`test <fe> --> fail;`
			`test <02.00> --> s0x200;`
			`test <02> --> fail;`
			`}`

			`int8 {`
			`parser int8();`
			`test <88> --> s-0x78;`
			`test <> --> fail;`
			`}`

			`uint64 {`
			`parser uint64();`
			`test <00.00.00.02.00.00.00.00> --> u0x200000000;`
			`test <00.00.00.02.00.00.00> --> fail;`
			`}`

			`uint32 {`
			`parser uint32();`
			`test <00.02.00.00> --> u0x20000;`
			`test <00.02.00> --> fail;`
			`}`

			`uint16 {`
			`parser uint16();`
			`test <02.00> --> u0x200;`
			`test <02> --> fail;`
			`}`

			`uint8 {`
			`parser uint8();`
			`test <78> --> u0x78;`
			`test <> --> fail;`
			`}`

			`int_range {`
			`parser int_range(uint8(), 0x3, 0x10);`
			`test <05> --> u0x05;`
			`test <0b> --> fail;`
			`}`

			`whitespace {`
			`parser whitespace(ch(0x61));`
			`test "a" --> 'a';`
			`test " a" --> 'a';`
			`test " a" --> 'a';`
			`test "\x09a" --> 'a';`
			`test "_a" --> fail;`

			`parser whitespace(end_p());`
			`test "" --> none;`
			`test " " --> none;`
			`test " x" --> fail;`
			`}`

			`left {`
			`parser left(ch(0x61), ch(0x20));`
			`test "a " --> 'a';`
			`test "a" --> fail;`
			`test " " --> fail;`
			`test "ba" --> fail;`
			`}`

			`middle {`
			`parser middle(ch(' '), ch('a'), ch(' '));`
			`test " a " --> 'a';`
			`test "a" --> fail;`
			`test " a" --> fail;`
			`test "a " --> fail;`
			`test " b " --> fail;`
			`test "ba " --> fail;`
			`test " ab" --> fail;`
			`}`

			`# TODO: action`

			`in {`
			`parser in("abc");`
			`test "b" --> 'b';`
			`test "d" --> fail;`
			`}`

			`not_in {`
			`parser not_in("abc");`
			`test "d" --> 'd';`
			`test "a" --> fail;`
			`}`

			`end_p {`
			`parser sequence(ch('a'), end_p());`
			`test "a" --> ['a'];`
			`test "aa" --> fail;`
			`}`

			`nothing_p {`
			`parser nothing_p();`
			`test "a" --> fail;`
			`}`

			`sequence {`
			`parser sequence(ch('a'), ch('b'));`
			`test "ab" --> ['a', 'b'];`
			`test "a" --> fail;`
			`test "b" --> fail;`

			`parser sequence(ch('a'), whitespace(ch('b')));`
			`test "ab" --> ['a','b'];`
			`test "a b" --> ['a','b'];`
			`test "a b" --> ['a','b'];`
			`}`

			`choice {`
			`parser choice(ch('a'), ch('b'));`
			`test "a" --> 'a';`
			`test "b" --> 'b';`
			`test "ab" --> 'a';`
			`test "c" --> fail;`
			`}`

			`butnot {`
			`parser butnot(ch('a'), token("ab"));`
			`test "a" --> 'a';`
			`test "ab" --> fail;`
			`test "aa" --> 'a';`

			`parser butnot(ch_range('0','9'), ch('6'));`
			`test "5" --> '5';`
			`test "6" --> fail;`
			`}`

			`difference {`
			`# Not sure this actually tests anything`
			`parser difference(token("ab"), ch('a'));`
			`test "ab" --> "ab";`
			`test "a" --> fail;`
			`}`

			`xor {`
			`parser xor(ch_range('0','6'), ch_range('5','9'));`
			`test "0" --> '0';`
			`test "9" --> '9';`
			`test "5" --> fail;`
			`test "a" --> fail;`
			`}`

			`many {`
			`# TODO: Some of the parsers in the original were commented out.`
			`parser many(choice(ch('a'), ch('b')));`
			`test "" --> [];`
			`test "a" --> ['a'];`
			`test "b" --> ['b'];`
			`test "aabbaba" --> ['a','a','b','b','a','b','a'];`
			`}`

			`many1 {`
			`# TODO: Some of the checks in the original were commented out.`
			`parser many1(choice(ch('a'),ch('b')));`
			`test "" --> fail;`
			`test "a" --> ['a'];`
			`test "b" --> ['b'];`
			`test "aabbaba" --> ['a','a','b','b','a','b','a'];`
			`test "daabbabadef" --> fail;`
			`}`

			`repeat-n {`
			`parser repeat_n(choice(ch('a'),ch('b')),0x2);`
			`test "adef" --> fail;`
			`test "abdef" --> ['a','b'];`
			`test "dabdef" --> fail;`
			`}`

			`optional {`
			`parser sequence(ch('a'), optional(choice(ch('b'),ch('c'))), ch('d'));`
			`test "abd" --> ['a','b','d'];`
			`test "acd" --> ['a','c','d'];`
			`test "ad" --> ['a',none,'d'];`
			`test "aed" --> fail;`
			`test "ab" --> fail;`
			`test "ac" --> fail;`
			`}`

			`ignore {`
			`parser sequence(ch('a'), ignore(ch('b')), ch('c'));`
			`test "abc" --> ['a','c'];`
			`test "ac" --> fail;`
			`}`

			`sepBy {`
			`parser sepBy(choice(ch('1'), ch('2'), ch('3')), ch(','));`
			`test "1,2,3" --> ['1','2','3'];`
			`test "1,3,2" --> ['1','3','2'];`
			`test "1,3" --> ['1','3'];`
			`test "3" --> ['3'];`
			`test "" --> [];`
			`}`

			`sepBy1 {`
			`parser sepBy1(choice(ch('1'), ch('2'), ch('3')), ch(','));`
			`test "1,2,3" --> ['1','2','3'];`
			`test "1,3,2" --> ['1','3','2'];`
			`test "1,3" --> ['1','3'];`
			`test "3" --> ['3'];`
			`test "" --> fail;`
			`}`

			`# TODO: attr_bool;`
			`and {`
			`parser sequence(and(ch('0')), ch('0'));`
			`test "0" --> ['0'];`
			`test "1" --> fail;`
			`parser sequence(and(ch('0')), ch('1'));`
			`test "0" --> fail;`
			`test "1" --> fail;`
			`parser sequence(ch('1'), and(ch('2')));`
			`test "12" --> ['1'];`
			`test "13" --> fail;`
			`}`

			`not {`
			`parser sequence(ch('a'), choice(token('+'), token("++")), ch('b'));`
			`test "a+b" --> ['a',"+",'b'];`
			`test "a++b" --> fail;`

			`parser sequence(ch('a'), choice(sequence(token('+'), not(ch('+'))),`
			`token("++")),`
			`ch('b'));`
			`test "a+b" --> ['a', ["+"], 'b'];`
			`test "a++b" --> ['a', "++", 'b'];`
			`}`

			`leftrec {`
			`subparser $lr = choice(sequence($lr, ch('a')), epsilon_p());`
			`parser $lr;`
			`test "a" --> ['a'];`
			`test "aa" --> [['a'],'a'];`
			`test "aaa" --> [[['a'],'a'],'a'];`
			`}`

			`rightrec {`
			`subparser $rr = choice(sequence(ch('a'), $rr), epsilon_p());`
			`parser $rr;`
			`test "a" --> ['a'];`
			`test "aa" --> ['a',['a']];`
			`test "aaa" --> ['a',['a',['a']]];`
			`}`

			`ambiguous {`
			`subparser $d = ch('d');`
			`subparser $p = ch('+');`
			`subparser $e = choice(sequence($e, $p, $e), $d);`
			`# TODO: implement action/h_act_flatten`
			`parser $e;`

			`test "d" --> 'd';`
			`test "d+d" --> ['d','+','d'];`
			`test "d+d+d" --> [['d','+','d'],'+','d'];`
			`}`