cpp-peglib/test/test1.cc

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#include <gtest/gtest.h>
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#include <peglib.h>
using namespace peg;
#if !defined(PEGLIB_NO_UNICODE_CHARS)
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TEST(GeneralTest, Simple_syntax_test_with_unicode) {
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parser parser(u8" ROOT ← _ "
" _ <- ' ' ");
bool ret = parser;
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EXPECT_TRUE(ret);
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}
#endif
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TEST(GeneralTest, Simple_syntax_test) {
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parser parser(R"(
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ROOT <- _
_ <- ' '
)");
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bool ret = parser;
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EXPECT_TRUE(ret);
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}
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TEST(GeneralTest, Empty_syntax_test) {
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parser parser("");
bool ret = parser;
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EXPECT_FALSE(ret);
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}
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TEST(GeneralTest, Start_rule_with_ignore_operator_test) {
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parser parser(R"(
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~ROOT <- _
_ <- ' '
)");
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bool ret = parser;
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EXPECT_FALSE(ret);
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}
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TEST(GeneralTest, Invalid_UTF8_text_test) {
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std::string s = "a <- '";
s += static_cast<char>(0xe8); // Make invalid utf8 text...
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parser parser(s.data());
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bool ret = parser;
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EXPECT_FALSE(ret);
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}
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TEST(GeneralTest, Backslash_escape_sequence_test) {
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parser parser(R"(
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ROOT <- _
_ <- '\\'
)");
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bool ret = parser;
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EXPECT_TRUE(ret);
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}
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TEST(GeneralTest, Invalid_escape_sequence_test) {
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parser parser(R"(
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ROOT <- _
_ <- '\'
)");
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bool ret = parser;
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EXPECT_FALSE(ret);
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}
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TEST(GeneralTest, Action_taking_non_const_Semantic_Values_parameter) {
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parser parser(R"(
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ROOT <- TEXT
TEXT <- [a-zA-Z]+
)");
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parser["ROOT"] = [&](SemanticValues &vs) {
auto s = std::string(std::any_cast<std::string_view>(vs[0]));
s[0] = 'H'; // mutate
return s; // move
};
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parser["TEXT"] = [&](SemanticValues &vs) { return vs.token(); };
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std::string val;
auto ret = parser.parse("hello", val);
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EXPECT_TRUE(ret);
EXPECT_EQ("Hello", val);
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}
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TEST(GeneralTest, String_capture_test) {
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parser parser(R"(
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ROOT <- _ ('[' TAG_NAME ']' _)*
TAG_NAME <- (!']' .)+
_ <- [ \t]*
)");
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std::vector<std::string_view> tags;
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parser["TAG_NAME"] = [&](const SemanticValues &vs) {
tags.push_back(vs.sv());
};
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auto ret = parser.parse(" [tag1] [tag:2] [tag-3] ");
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EXPECT_TRUE(ret);
EXPECT_EQ(3, tags.size());
EXPECT_EQ("tag1", tags[0]);
EXPECT_EQ("tag:2", tags[1]);
EXPECT_EQ("tag-3", tags[2]);
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}
using namespace peg;
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TEST(GeneralTest, String_capture_test2) {
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std::vector<std::string_view> tags;
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Definition ROOT, TAG, TAG_NAME, WS;
ROOT <= seq(WS, zom(TAG));
TAG <= seq(chr('['), TAG_NAME, chr(']'), WS);
TAG_NAME <= oom(seq(npd(chr(']')), dot())),
[&](const SemanticValues &vs) { tags.push_back(vs.sv()); };
WS <= zom(cls(" \t"));
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auto r = ROOT.parse(" [tag1] [tag:2] [tag-3] ");
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EXPECT_TRUE(r.ret);
EXPECT_EQ(3, tags.size());
EXPECT_EQ("tag1", tags[0]);
EXPECT_EQ("tag:2", tags[1]);
EXPECT_EQ("tag-3", tags[2]);
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}
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TEST(GeneralTest, String_capture_test3) {
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parser pg(R"(
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ROOT <- _ TOKEN*
TOKEN <- '[' < (!']' .)+ > ']' _
_ <- [ \t\r\n]*
)");
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std::vector<std::string_view> tags;
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pg["TOKEN"] = [&](const SemanticValues &vs) { tags.push_back(vs.token()); };
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auto ret = pg.parse(" [tag1] [tag:2] [tag-3] ");
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EXPECT_TRUE(ret);
EXPECT_EQ(3, tags.size());
EXPECT_EQ("tag1", tags[0]);
EXPECT_EQ("tag:2", tags[1]);
EXPECT_EQ("tag-3", tags[2]);
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}
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TEST(GeneralTest, Cyclic_grammer_test) {
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Definition PARENT;
Definition CHILD;
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PARENT <= seq(CHILD);
CHILD <= seq(PARENT);
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}
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TEST(GeneralTest, Visit_test) {
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Definition ROOT, TAG, TAG_NAME, WS;
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ROOT <= seq(WS, zom(TAG));
TAG <= seq(chr('['), TAG_NAME, chr(']'), WS);
TAG_NAME <= oom(seq(npd(chr(']')), dot()));
WS <= zom(cls(" \t"));
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AssignIDToDefinition defIds;
ROOT.accept(defIds);
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EXPECT_EQ(4, defIds.ids.size());
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}
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TEST(GeneralTest, Token_check_test) {
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parser parser(R"(
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EXPRESSION <- _ TERM (TERM_OPERATOR TERM)*
TERM <- FACTOR (FACTOR_OPERATOR FACTOR)*
FACTOR <- NUMBER / '(' _ EXPRESSION ')' _
TERM_OPERATOR <- < [-+] > _
FACTOR_OPERATOR <- < [/*] > _
NUMBER <- < [0-9]+ > _
_ <- [ \t\r\n]*
)");
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EXPECT_FALSE(parser["EXPRESSION"].is_token());
EXPECT_FALSE(parser["FACTOR"].is_token());
EXPECT_TRUE(parser["FACTOR_OPERATOR"].is_token());
EXPECT_TRUE(parser["NUMBER"].is_token());
EXPECT_TRUE(parser["_"].is_token());
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}
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TEST(GeneralTest, Lambda_action_test) {
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parser parser(R"(
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START <- (CHAR)*
CHAR <- .
)");
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std::string ss;
parser["CHAR"] = [&](const SemanticValues &vs) { ss += *vs.sv().data(); };
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bool ret = parser.parse("hello");
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EXPECT_TRUE(ret);
EXPECT_EQ("hello", ss);
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}
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TEST(GeneralTest, enter_leave_handlers_test) {
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parser parser(R"(
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START <- LTOKEN '=' RTOKEN
LTOKEN <- TOKEN
RTOKEN <- TOKEN
TOKEN <- [A-Za-z]+
)");
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parser["LTOKEN"].enter = [&](const char *, size_t, std::any &dt) {
auto &require_upper_case = *std::any_cast<bool *>(dt);
require_upper_case = false;
};
parser["LTOKEN"].leave = [&](const char *, size_t, size_t, std::any &,
std::any &dt) {
auto &require_upper_case = *std::any_cast<bool *>(dt);
require_upper_case = true;
};
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auto message = "should be upper case string...";
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parser["TOKEN"] = [&](const SemanticValues &vs, std::any &dt) {
auto &require_upper_case = *std::any_cast<bool *>(dt);
if (require_upper_case) {
const auto &s = vs.sv();
if (!std::all_of(s.begin(), s.end(), ::isupper)) {
throw parse_error(message);
}
}
};
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bool require_upper_case = false;
std::any dt = &require_upper_case;
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EXPECT_FALSE(parser.parse("hello=world", dt));
EXPECT_FALSE(parser.parse("HELLO=world", dt));
EXPECT_TRUE(parser.parse("hello=WORLD", dt));
EXPECT_TRUE(parser.parse("HELLO=WORLD", dt));
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parser.log = [&](size_t ln, size_t col, const std::string &msg) {
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EXPECT_EQ(1, ln);
EXPECT_EQ(7, col);
EXPECT_EQ(message, msg);
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};
parser.parse("hello=world", dt);
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}
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TEST(GeneralTest, WHITESPACE_test) {
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parser parser(R"(
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# Rules
ROOT <- ITEM (',' ITEM)*
ITEM <- WORD / PHRASE
# Tokens
WORD <- < [a-zA-Z0-9_]+ >
PHRASE <- < '"' (!'"' .)* '"' >
%whitespace <- [ \t\r\n]*
)");
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auto ret = parser.parse(R"( one, "two, three", four )");
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EXPECT_TRUE(ret);
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}
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TEST(GeneralTest, WHITESPACE_test2) {
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parser parser(R"(
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# Rules
ROOT <- ITEM (',' ITEM)*
ITEM <- '[' < [a-zA-Z0-9_]+ > ']'
%whitespace <- (SPACE / TAB)*
SPACE <- ' '
TAB <- '\t'
)");
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std::vector<std::string_view> items;
parser["ITEM"] = [&](const SemanticValues &vs) {
items.push_back(vs.token());
};
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auto ret = parser.parse(R"([one], [two] ,[three] )");
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EXPECT_TRUE(ret);
EXPECT_EQ(3, items.size());
EXPECT_EQ("one", items[0]);
EXPECT_EQ("two", items[1]);
EXPECT_EQ("three", items[2]);
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}
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TEST(GeneralTest, WHITESPACE_test3) {
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parser parser(R"(
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StrQuot <- < '"' < (StrEscape / StrChars)* > '"' >
StrEscape <- '\\' any
StrChars <- (!'"' !'\\' any)+
any <- .
%whitespace <- [ \t]*
)");
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parser["StrQuot"] = [](const SemanticValues &vs) {
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EXPECT_EQ(R"( aaa \" bbb )", vs.token());
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};
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auto ret = parser.parse(R"( " aaa \" bbb " )");
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EXPECT_TRUE(ret);
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}
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TEST(GeneralTest, WHITESPACE_test4) {
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parser parser(R"(
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ROOT <- HELLO OPE WORLD
HELLO <- 'hello'
OPE <- < [-+] >
WORLD <- 'world' / 'WORLD'
%whitespace <- [ \t\r\n]*
)");
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parser["HELLO"] = [](const SemanticValues &vs) {
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EXPECT_EQ("hello", vs.token());
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};
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parser["OPE"] = [](const SemanticValues &vs) { EXPECT_EQ("+", vs.token()); };
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parser["WORLD"] = [](const SemanticValues &vs) {
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EXPECT_EQ("world", vs.token());
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};
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auto ret = parser.parse(" hello + world ");
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EXPECT_TRUE(ret);
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}
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TEST(GeneralTest, Word_expression_test) {
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parser parser(R"(
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ROOT <- 'hello' ','? 'world'
%whitespace <- [ \t\r\n]*
%word <- [a-z]+
)");
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EXPECT_FALSE(parser.parse("helloworld"));
EXPECT_TRUE(parser.parse("hello world"));
EXPECT_TRUE(parser.parse("hello,world"));
EXPECT_TRUE(parser.parse("hello, world"));
EXPECT_TRUE(parser.parse("hello , world"));
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}
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TEST(GeneralTest, Skip_token_test) {
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parser parser(" ROOT <- _ ITEM (',' _ ITEM _)* "
" ITEM <- ([a-z0-9])+ "
" ~_ <- [ \t]* ");
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parser["ROOT"] = [&](const SemanticValues &vs) { EXPECT_EQ(2, vs.size()); };
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auto ret = parser.parse(" item1, item2 ");
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EXPECT_TRUE(ret);
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}
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TEST(GeneralTest, Skip_token_test2) {
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parser parser(R"(
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ROOT <- ITEM (',' ITEM)*
ITEM <- < ([a-z0-9])+ >
%whitespace <- [ \t]*
)");
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parser["ROOT"] = [&](const SemanticValues &vs) { EXPECT_EQ(2, vs.size()); };
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auto ret = parser.parse(" item1, item2 ");
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EXPECT_TRUE(ret);
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}
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TEST(GeneralTest, Custom_AST_test) {
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struct CustomType {};
using CustomAst = AstBase<CustomType>;
parser parser(R"(
ROOT <- _ TEXT*
TEXT <- [a-zA-Z]+ _
_ <- [ \t\r\n]*
)");
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parser.enable_ast<CustomAst>();
std::shared_ptr<CustomAst> ast;
bool ret = parser.parse("a b c", ast);
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EXPECT_TRUE(ret);
EXPECT_EQ(4, ast->nodes.size());
}
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TEST(GeneralTest, Backtracking_test) {
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parser parser(R"(
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START <- PAT1 / PAT2
PAT1 <- HELLO ' One'
PAT2 <- HELLO ' Two'
HELLO <- 'Hello'
)");
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size_t count = 0;
parser["HELLO"] = [&](const SemanticValues & /*vs*/) { count++; };
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parser.enable_packrat_parsing();
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bool ret = parser.parse("Hello Two");
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EXPECT_TRUE(ret);
EXPECT_EQ(1, count); // Skip second time
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}
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TEST(GeneralTest, Backtracking_with_AST) {
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parser parser(R"(
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S <- A? B (A B)* A
A <- 'a'
B <- 'b'
)");
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parser.enable_ast();
std::shared_ptr<Ast> ast;
bool ret = parser.parse("ba", ast);
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EXPECT_TRUE(ret);
EXPECT_EQ(2, ast->nodes.size());
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}
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TEST(GeneralTest, Octal_Hex_Unicode_value_test) {
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parser parser(R"( ROOT <- '\132\x7a\u30f3' )");
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auto ret = parser.parse("Zzン");
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EXPECT_TRUE(ret);
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}
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TEST(GeneralTest, Ignore_case_test) {
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parser parser(R"(
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ROOT <- HELLO WORLD
HELLO <- 'hello'i
WORLD <- 'world'i
%whitespace <- [ \t\r\n]*
)");
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parser["HELLO"] = [](const SemanticValues &vs) {
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EXPECT_EQ("Hello", vs.token());
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};
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parser["WORLD"] = [](const SemanticValues &vs) {
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EXPECT_EQ("World", vs.token());
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};
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auto ret = parser.parse(" Hello World ");
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EXPECT_TRUE(ret);
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}
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TEST(GeneralTest, mutable_lambda_test) {
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std::vector<std::string_view> vec;
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parser pg("ROOT <- 'mutable lambda test'");
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// This test makes sure if the following code can be compiled.
pg["TOKEN"] = [=](const SemanticValues &vs) mutable {
vec.push_back(vs.sv());
};
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}
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TEST(GeneralTest, Simple_calculator_test) {
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parser parser(R"(
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Additive <- Multitive '+' Additive / Multitive
Multitive <- Primary '*' Multitive / Primary
Primary <- '(' Additive ')' / Number
Number <- [0-9]+
)");
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parser["Additive"] = [](const SemanticValues &vs) {
switch (vs.choice()) {
case 0: return std::any_cast<int>(vs[0]) + std::any_cast<int>(vs[1]);
default: return std::any_cast<int>(vs[0]);
}
};
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parser["Multitive"] = [](const SemanticValues &vs) {
switch (vs.choice()) {
case 0: return std::any_cast<int>(vs[0]) * std::any_cast<int>(vs[1]);
default: return std::any_cast<int>(vs[0]);
}
};
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parser["Number"] = [](const SemanticValues &vs) {
return vs.token_to_number<int>();
};
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int val;
parser.parse("(1+2)*3", val);
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EXPECT_EQ(9, val);
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}
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TEST(GeneralTest, Calculator_test) {
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// Construct grammer
Definition EXPRESSION, TERM, FACTOR, TERM_OPERATOR, FACTOR_OPERATOR, NUMBER;
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EXPRESSION <= seq(TERM, zom(seq(TERM_OPERATOR, TERM)));
TERM <= seq(FACTOR, zom(seq(FACTOR_OPERATOR, FACTOR)));
FACTOR <= cho(NUMBER, seq(chr('('), EXPRESSION, chr(')')));
TERM_OPERATOR <= cls("+-");
FACTOR_OPERATOR <= cls("*/");
NUMBER <= oom(cls("0-9"));
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// Setup actions
auto reduce = [](const SemanticValues &vs) -> long {
long ret = std::any_cast<long>(vs[0]);
for (auto i = 1u; i < vs.size(); i += 2) {
auto num = std::any_cast<long>(vs[i + 1]);
switch (std::any_cast<char>(vs[i])) {
case '+': ret += num; break;
case '-': ret -= num; break;
case '*': ret *= num; break;
case '/': ret /= num; break;
}
}
return ret;
};
EXPRESSION = reduce;
TERM = reduce;
TERM_OPERATOR = [](const SemanticValues &vs) { return *vs.sv().data(); };
FACTOR_OPERATOR = [](const SemanticValues &vs) { return *vs.sv().data(); };
NUMBER = [](const SemanticValues &vs) { return vs.token_to_number<long>(); };
// Parse
long val;
auto r = EXPRESSION.parse_and_get_value("1+2*3*(4-5+6)/7-8", val);
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EXPECT_TRUE(r.ret);
EXPECT_EQ(-3, val);
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}
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TEST(GeneralTest, Calculator_test2) {
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// Parse syntax
auto syntax = R"(
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# Grammar for Calculator...
EXPRESSION <- TERM (TERM_OPERATOR TERM)*
TERM <- FACTOR (FACTOR_OPERATOR FACTOR)*
FACTOR <- NUMBER / '(' EXPRESSION ')'
TERM_OPERATOR <- [-+]
FACTOR_OPERATOR <- [/*]
NUMBER <- [0-9]+
)";
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std::string start;
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bool enablePackratParsing = false;
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auto grammar = ParserGenerator::parse(syntax, strlen(syntax), start,
enablePackratParsing, nullptr);
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auto &g = *grammar;
// Setup actions
auto reduce = [](const SemanticValues &vs) -> long {
long ret = std::any_cast<long>(vs[0]);
for (auto i = 1u; i < vs.size(); i += 2) {
auto num = std::any_cast<long>(vs[i + 1]);
switch (std::any_cast<char>(vs[i])) {
case '+': ret += num; break;
case '-': ret -= num; break;
case '*': ret *= num; break;
case '/': ret /= num; break;
}
}
return ret;
};
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g["EXPRESSION"] = reduce;
g["TERM"] = reduce;
g["TERM_OPERATOR"] = [](const SemanticValues &vs) { return *vs.sv().data(); };
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g["FACTOR_OPERATOR"] = [](const SemanticValues &vs) {
return *vs.sv().data();
};
g["NUMBER"] = [](const SemanticValues &vs) {
return vs.token_to_number<long>();
};
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// Parse
long val;
auto r = g[start].parse_and_get_value("1+2*3*(4-5+6)/7-8", val);
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EXPECT_TRUE(r.ret);
EXPECT_EQ(-3, val);
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}
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TEST(GeneralTest, Calculator_test3) {
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// Parse syntax
parser parser(R"(
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# Grammar for Calculator...
EXPRESSION <- TERM (TERM_OPERATOR TERM)*
TERM <- FACTOR (FACTOR_OPERATOR FACTOR)*
FACTOR <- NUMBER / '(' EXPRESSION ')'
TERM_OPERATOR <- [-+]
FACTOR_OPERATOR <- [/*]
NUMBER <- [0-9]+
)");
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auto reduce = [](const SemanticValues &vs) -> long {
long ret = std::any_cast<long>(vs[0]);
for (auto i = 1u; i < vs.size(); i += 2) {
auto num = std::any_cast<long>(vs[i + 1]);
switch (std::any_cast<char>(vs[i])) {
case '+': ret += num; break;
case '-': ret -= num; break;
case '*': ret *= num; break;
case '/': ret /= num; break;
}
}
return ret;
};
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// Setup actions
parser["EXPRESSION"] = reduce;
parser["TERM"] = reduce;
parser["TERM_OPERATOR"] = [](const SemanticValues &vs) {
return static_cast<char>(*vs.sv().data());
};
parser["FACTOR_OPERATOR"] = [](const SemanticValues &vs) {
return static_cast<char>(*vs.sv().data());
};
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parser["NUMBER"] = [](const SemanticValues &vs) {
return vs.token_to_number<long>();
};
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// Parse
long val;
auto ret = parser.parse("1+2*3*(4-5+6)/7-8", val);
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EXPECT_TRUE(ret);
EXPECT_EQ(-3, val);
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}
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TEST(GeneralTest, Calculator_test_with_AST) {
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parser parser(R"(
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EXPRESSION <- _ TERM (TERM_OPERATOR TERM)*
TERM <- FACTOR (FACTOR_OPERATOR FACTOR)*
FACTOR <- NUMBER / '(' _ EXPRESSION ')' _
TERM_OPERATOR <- < [-+] > _
FACTOR_OPERATOR <- < [/*] > _
NUMBER <- < [0-9]+ > _
~_ <- [ \t\r\n]*
)");
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parser.enable_ast();
std::function<long(const Ast &)> eval = [&](const Ast &ast) {
if (ast.name == "NUMBER") {
return ast.token_to_number<long>();
} else {
const auto &nodes = ast.nodes;
auto result = eval(*nodes[0]);
for (auto i = 1u; i < nodes.size(); i += 2) {
auto num = eval(*nodes[i + 1]);
auto ope = nodes[i]->token[0];
switch (ope) {
case '+': result += num; break;
case '-': result -= num; break;
case '*': result *= num; break;
case '/': result /= num; break;
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}
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}
return result;
}
};
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std::shared_ptr<Ast> ast;
auto ret = parser.parse("1+2*3*(4-5+6)/7-8", ast);
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ast = parser.optimize_ast(ast);
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auto val = eval(*ast);
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EXPECT_TRUE(ret);
EXPECT_EQ(-3, val);
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}
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TEST(GeneralTest, Calculator_test_with_combinators_and_AST) {
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// Construct grammer
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AST_DEFINITIONS(EXPRESSION, TERM, FACTOR, TERM_OPERATOR, FACTOR_OPERATOR,
NUMBER);
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EXPRESSION <= seq(TERM, zom(seq(TERM_OPERATOR, TERM)));
TERM <= seq(FACTOR, zom(seq(FACTOR_OPERATOR, FACTOR)));
FACTOR <= cho(NUMBER, seq(chr('('), EXPRESSION, chr(')')));
TERM_OPERATOR <= cls("+-");
FACTOR_OPERATOR <= cls("*/");
NUMBER <= oom(cls("0-9"));
std::function<long(const Ast &)> eval = [&](const Ast &ast) {
if (ast.name == "NUMBER") {
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return ast.token_to_number<long>();
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} else {
const auto &nodes = ast.nodes;
auto result = eval(*nodes[0]);
for (auto i = 1u; i < nodes.size(); i += 2) {
auto num = eval(*nodes[i + 1]);
auto ope = nodes[i]->token[0];
switch (ope) {
case '+': result += num; break;
case '-': result -= num; break;
case '*': result *= num; break;
case '/': result /= num; break;
}
}
return result;
}
};
std::shared_ptr<Ast> ast;
auto r = EXPRESSION.parse_and_get_value("1+2*3*(4-5+6)/7-8", ast);
ast = AstOptimizer(true).optimize(ast);
auto val = eval(*ast);
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EXPECT_TRUE(r.ret);
EXPECT_EQ(-3, val);
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}
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TEST(GeneralTest, Ignore_semantic_value_test) {
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parser parser(R"(
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START <- ~HELLO WORLD
HELLO <- 'Hello' _
WORLD <- 'World' _
_ <- [ \t\r\n]*
)");
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parser.enable_ast();
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std::shared_ptr<Ast> ast;
auto ret = parser.parse("Hello World", ast);
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EXPECT_TRUE(ret);
EXPECT_EQ(1, ast->nodes.size());
EXPECT_EQ("WORLD", ast->nodes[0]->name);
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}
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TEST(GeneralTest, Ignore_semantic_value_of_or_predicate_test) {
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parser parser(R"(
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START <- _ !DUMMY HELLO_WORLD '.'
HELLO_WORLD <- HELLO 'World' _
HELLO <- 'Hello' _
DUMMY <- 'dummy' _
~_ <- [ \t\r\n]*
)");
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parser.enable_ast();
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std::shared_ptr<Ast> ast;
auto ret = parser.parse("Hello World.", ast);
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EXPECT_TRUE(ret);
EXPECT_EQ(1, ast->nodes.size());
EXPECT_EQ("HELLO_WORLD", ast->nodes[0]->name);
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}
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TEST(GeneralTest, Ignore_semantic_value_of_and_predicate_test) {
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parser parser(R"(
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START <- _ &HELLO HELLO_WORLD '.'
HELLO_WORLD <- HELLO 'World' _
HELLO <- 'Hello' _
~_ <- [ \t\r\n]*
)");
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parser.enable_ast();
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std::shared_ptr<Ast> ast;
auto ret = parser.parse("Hello World.", ast);
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EXPECT_TRUE(ret);
EXPECT_EQ(1, ast->nodes.size());
EXPECT_EQ("HELLO_WORLD", ast->nodes[0]->name);
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}
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TEST(GeneralTest, Literal_token_on_AST_test1) {
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parser parser(R"(
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STRING_LITERAL <- '"' (('\\"' / '\\t' / '\\n') / (!["] .))* '"'
)");
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parser.enable_ast();
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std::shared_ptr<Ast> ast;
auto ret = parser.parse(R"("a\tb")", ast);
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EXPECT_TRUE(ret);
EXPECT_TRUE(ast->is_token);
EXPECT_EQ(R"("a\tb")", ast->token);
EXPECT_TRUE(ast->nodes.empty());
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}
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TEST(GeneralTest, Literal_token_on_AST_test2) {
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parser parser(R"(
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STRING_LITERAL <- '"' (ESC / CHAR)* '"'
ESC <- ('\\"' / '\\t' / '\\n')
CHAR <- (!["] .)
)");
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parser.enable_ast();
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std::shared_ptr<Ast> ast;
auto ret = parser.parse(R"("a\tb")", ast);
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EXPECT_TRUE(ret);
EXPECT_FALSE(ast->is_token);
EXPECT_TRUE(ast->token.empty());
EXPECT_EQ(3, ast->nodes.size());
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}
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TEST(GeneralTest, Literal_token_on_AST_test3) {
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parser parser(R"(
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STRING_LITERAL <- < '"' (ESC / CHAR)* '"' >
ESC <- ('\\"' / '\\t' / '\\n')
CHAR <- (!["] .)
)");
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parser.enable_ast();
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std::shared_ptr<Ast> ast;
auto ret = parser.parse(R"("a\tb")", ast);
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EXPECT_TRUE(ret);
EXPECT_TRUE(ast->is_token);
EXPECT_EQ(R"("a\tb")", ast->token);
EXPECT_TRUE(ast->nodes.empty());
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}
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TEST(GeneralTest, Missing_missing_definitions_test) {
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parser parser(R"(
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A <- B C
)");
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EXPECT_FALSE(parser);
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}
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TEST(GeneralTest, Definition_duplicates_test) {
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parser parser(R"(
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A <- ''
A <- ''
)");
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EXPECT_FALSE(parser);
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}
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TEST(GeneralTest, Semantic_values_test) {
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parser parser(R"(
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term <- ( a b c x )? a b c
a <- 'a'
b <- 'b'
c <- 'c'
x <- 'x'
)");
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for (const auto &rule : parser.get_rule_names()) {
parser[rule.data()] = [rule](const SemanticValues &vs, std::any &) {
if (rule == "term") {
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EXPECT_EQ("a at 0", std::any_cast<std::string>(vs[0]));
EXPECT_EQ("b at 1", std::any_cast<std::string>(vs[1]));
EXPECT_EQ("c at 2", std::any_cast<std::string>(vs[2]));
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return std::string();
} else {
return rule + " at " + std::to_string(vs.sv().data() - vs.ss);
}
};
}
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EXPECT_TRUE(parser.parse("abc"));
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}
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TEST(GeneralTest, Ordered_choice_count) {
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parser parser(R"(
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S <- 'a' / 'b'
)");
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parser["S"] = [](const SemanticValues &vs) {
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EXPECT_EQ(1, vs.choice());
EXPECT_EQ(2, vs.choice_count());
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};
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parser.parse("b");
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}
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TEST(GeneralTest, Ordered_choice_count_2) {
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parser parser(R"(
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S <- ('a' / 'b')*
)");
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parser["S"] = [](const SemanticValues &vs) {
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EXPECT_EQ(0, vs.choice());
EXPECT_EQ(0, vs.choice_count());
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};
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parser.parse("b");
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}
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TEST(GeneralTest, Semantic_value_tag) {
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parser parser(R"(
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S <- A? B* C?
A <- 'a'
B <- 'b'
C <- 'c'
)");
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{
using namespace udl;
parser["S"] = [](const SemanticValues &vs) {
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EXPECT_EQ(1, vs.size());
EXPECT_EQ(1, vs.tags.size());
EXPECT_EQ("C"_, vs.tags[0]);
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};
auto ret = parser.parse("c");
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EXPECT_TRUE(ret);
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}
{
using namespace udl;
parser["S"] = [](const SemanticValues &vs) {
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EXPECT_EQ(2, vs.size());
EXPECT_EQ(2, vs.tags.size());
EXPECT_EQ("B"_, vs.tags[0]);
EXPECT_EQ("B"_, vs.tags[1]);
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};
auto ret = parser.parse("bb");
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EXPECT_TRUE(ret);
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}
{
using namespace udl;
parser["S"] = [](const SemanticValues &vs) {
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EXPECT_EQ(2, vs.size());
EXPECT_EQ(2, vs.tags.size());
EXPECT_EQ("A"_, vs.tags[0]);
EXPECT_EQ("C"_, vs.tags[1]);
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};
auto ret = parser.parse("ac");
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EXPECT_TRUE(ret);
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}
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}
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TEST(GeneralTest, Negated_Class_test) {
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parser parser(R"(
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ROOT <- [^a-z_]+
)");
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bool ret = parser;
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EXPECT_TRUE(ret);
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EXPECT_TRUE(parser.parse("ABC123"));
EXPECT_FALSE(parser.parse("ABcZ"));
EXPECT_FALSE(parser.parse("ABCZ_"));
EXPECT_FALSE(parser.parse(""));
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}
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TEST(GeneralTest, token_to_number_float_test) {
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parser parser(R"(
S <- '1.1'
)");
parser.enable_ast();
std::shared_ptr<Ast> ast;
auto ret = parser.parse("1.1", ast);
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EXPECT_TRUE(ret);
EXPECT_TRUE(ast->is_token);
EXPECT_EQ("1.1", ast->token);
EXPECT_EQ(1.1f, ast->token_to_number<float>());
EXPECT_TRUE(ast->nodes.empty());
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}
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TEST(GeneralTest, ParentReferencesShouldNotBeExpired) {
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auto parser = peg::parser(R"(
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ROOT <- OPTIMIZES_AWAY
OPTIMIZES_AWAY <- ITEM+
ITEM <- 'a'
)");
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parser.enable_ast<peg::Ast>();
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std::shared_ptr<peg::Ast> ast;
parser.parse("aaa", ast);
ast = parser.optimize_ast(ast);
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EXPECT_FALSE(ast->nodes[0]->parent.expired());
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}