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llama.cpp / tests /peg-parser /test-unicode.cpp
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todo: 基于 CUDA 13.0 编译
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#include "tests.h"
#include "peg-parser.h"
#include <string>
#include <sstream>
#include <iomanip>
#include <cctype>
static void assert_result_equal(testing & t, common_peg_parse_result_type expected, common_peg_parse_result_type actual) {
 t.assert_equal(common_peg_parse_result_type_name(expected), common_peg_parse_result_type_name(actual));
}
static std::string hex_dump(const std::string& str) {
 std::ostringstream oss;
 for (unsigned char c : str) {
 if (std::isprint(c)) {
 oss << c;
 } else {
 oss << "\\x" << std::hex << std::setw(2) << std::setfill('0') << static_cast<int>(c);
 }
 }
 return oss.str();
}
void test_unicode(testing &t) {
 struct test_case {
 std::string input;
 std::string expected_text;
 common_peg_parse_result_type expected_result;
 };
t.test("any", [](testing &t) {
 std::vector<test_case> test_cases {
 // Valid UTF-8 sequences
 {"Hello", "Hello", COMMON_PEG_PARSE_RESULT_SUCCESS},
 {std::string("Caf\xC3\xA9"), std::string("Caf\xC3\xA9"), COMMON_PEG_PARSE_RESULT_SUCCESS},
 {std::string("\xE4\xBD\xA0\xE5\xA5\xBD"), std::string("\xE4\xBD\xA0\xE5\xA5\xBD"), COMMON_PEG_PARSE_RESULT_SUCCESS},
 {std::string("\xF0\x9F\x9A\x80"), std::string("\xF0\x9F\x9A\x80"), COMMON_PEG_PARSE_RESULT_SUCCESS},
// Incomplete UTF-8 sequences (partial bytes at end)
 {std::string("Caf\xC3"), "Caf", COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
 {std::string("\xE4\xBD"), "", COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
 {std::string("\xF0\x9F\x9A"), "", COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
// Invalid/malformed UTF-8 sequences
 {std::string("\xFF\xFE"), "", COMMON_PEG_PARSE_RESULT_FAIL},
 {std::string("Hello\x80World"), "Hello", COMMON_PEG_PARSE_RESULT_FAIL},
 {std::string("\xC3\x28"), "", COMMON_PEG_PARSE_RESULT_FAIL},
 };
auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.sequence({p.one_or_more(p.any()), p.end()});
 });
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 common_peg_parse_context ctx(tc.input, COMMON_PEG_PARSE_FLAG_LENIENT);
 auto result = parser.parse(ctx);
// Assert result type matches
 assert_result_equal(t, tc.expected_result, result.type);
// Assert matched text if success or need_more_input
 if (result.success() || result.need_more_input()) {
 std::string matched = tc.input.substr(result.start, result.end - result.start);
 t.assert_equal(tc.expected_text, matched);
 }
 });
 }
 });
t.test("char classes", [](testing &t) {
 t.test("unicode range U+4E00-U+9FFF (CJK)", [](testing &t) {
 std::vector<test_case> test_cases {
 // Within range - CJK Unified Ideographs
 {std::string("\xE4\xB8\x80"), std::string("\xE4\xB8\x80"), COMMON_PEG_PARSE_RESULT_SUCCESS}, // U+4E00
 {std::string("\xE4\xBD\xA0"), std::string("\xE4\xBD\xA0"), COMMON_PEG_PARSE_RESULT_SUCCESS}, // U+4F60
 {std::string("\xE5\xA5\xBD"), std::string("\xE5\xA5\xBD"), COMMON_PEG_PARSE_RESULT_SUCCESS}, // U+597D
 {std::string("\xE9\xBF\xBF"), std::string("\xE9\xBF\xBF"), COMMON_PEG_PARSE_RESULT_SUCCESS}, // U+9FFF
// Outside range - should fail
 {"a", "", COMMON_PEG_PARSE_RESULT_FAIL}, // ASCII
 {std::string("\xE4\xB7\xBF"), "", COMMON_PEG_PARSE_RESULT_FAIL}, // U+4DFF (before range)
 {std::string("\xEA\x80\x80"), "", COMMON_PEG_PARSE_RESULT_FAIL}, // U+A000 (after range)
// Incomplete sequences in range
 {std::string("\xE4\xB8"), "", COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT}, // Incomplete U+4E00
 {std::string("\xE5\xA5"), "", COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT}, // Incomplete U+597D
 };
auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.sequence({p.chars(R"([\u4E00-\u9FFF])"), p.end()});
 });
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 common_peg_parse_context ctx(tc.input, COMMON_PEG_PARSE_FLAG_LENIENT);
 auto result = parser.parse(ctx);
// Assert result type matches
 assert_result_equal(t, tc.expected_result, result.type);
// Assert matched text if success or need_more_input
 if (result.success() || result.need_more_input()) {
 std::string matched = tc.input.substr(result.start, result.end - result.start);
 t.assert_equal(tc.expected_text, matched);
 }
 });
 }
 });
t.test("unicode range U+1F600-U+1F64F (emoticons)", [](testing &t) {
 std::vector<test_case> test_cases {
 // Within range - Emoticons (all 4-byte UTF-8)
 {std::string("\xF0\x9F\x98\x80"), std::string("\xF0\x9F\x98\x80"), COMMON_PEG_PARSE_RESULT_SUCCESS}, // U+1F600
 {std::string("\xF0\x9F\x98\x81"), std::string("\xF0\x9F\x98\x81"), COMMON_PEG_PARSE_RESULT_SUCCESS}, // U+1F601
 {std::string("\xF0\x9F\x99\x8F"), std::string("\xF0\x9F\x99\x8F"), COMMON_PEG_PARSE_RESULT_SUCCESS}, // U+1F64F
// Outside range
 {std::string("\xF0\x9F\x97\xBF"), "", COMMON_PEG_PARSE_RESULT_FAIL}, // U+1F5FF (before range)
 {std::string("\xF0\x9F\x99\x90"), "", COMMON_PEG_PARSE_RESULT_FAIL}, // U+1F650 (after range)
 {std::string("\xF0\x9F\x9A\x80"), "", COMMON_PEG_PARSE_RESULT_FAIL}, // U+1F680 (outside range)
// Incomplete sequences
 {std::string("\xF0\x9F\x98"), "", COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT}, // Incomplete emoji
 {std::string("\xF0\x9F"), "", COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT}, // Very incomplete
 };
auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.sequence({p.chars(R"([\U0001F600-\U0001F64F])"), p.end()});
 });
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 common_peg_parse_context ctx(tc.input, COMMON_PEG_PARSE_FLAG_LENIENT);
 auto result = parser.parse(ctx);
// Assert result type matches
 assert_result_equal(t, tc.expected_result, result.type);
// Assert matched text if success or need_more_input
 if (result.success() || result.need_more_input()) {
 std::string matched = tc.input.substr(result.start, result.end - result.start);
 t.assert_equal(tc.expected_text, matched);
 }
 });
 }
 });
t.test("mixed unicode ranges", [](testing &t) {
 std::vector<test_case> test_cases {
 // Match CJK
 {std::string("\xE4\xB8\x80"), std::string("\xE4\xB8\x80"), COMMON_PEG_PARSE_RESULT_SUCCESS}, // U+4E00
 {std::string("\xE4\xBD\xA0"), std::string("\xE4\xBD\xA0"), COMMON_PEG_PARSE_RESULT_SUCCESS}, // U+4F60
// Match emoticons
 {std::string("\xF0\x9F\x98\x80"), std::string("\xF0\x9F\x98\x80"), COMMON_PEG_PARSE_RESULT_SUCCESS}, // U+1F600
// Match ASCII digits
 {"5", "5", COMMON_PEG_PARSE_RESULT_SUCCESS},
// Don't match outside any range
 {"a", "", COMMON_PEG_PARSE_RESULT_FAIL},
 {std::string("\xF0\x9F\x9A\x80"), "", COMMON_PEG_PARSE_RESULT_FAIL}, // U+1F680
// Incomplete
 {std::string("\xE4\xB8"), "", COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
 {std::string("\xF0\x9F\x98"), "", COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
 };
auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.sequence({p.chars(R"([\u4E00-\u9FFF\U0001F600-\U0001F64F0-9])"), p.end()});
 });
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 common_peg_parse_context ctx(tc.input, COMMON_PEG_PARSE_FLAG_LENIENT);
 auto result = parser.parse(ctx);
// Assert result type matches
 assert_result_equal(t, tc.expected_result, result.type);
// Assert matched text if success or need_more_input
 if (result.success() || result.need_more_input()) {
 std::string matched = tc.input.substr(result.start, result.end - result.start);
 t.assert_equal(tc.expected_text, matched);
 }
 });
 }
 });
 });
t.test("until parser", [](testing &t) {
 t.test("ASCII delimiter with Unicode content", [](testing &t) {
 std::vector<test_case> test_cases {
 // CJK characters before delimiter
 {std::string("\xE4\xBD\xA0\xE5\xA5\xBD</tag>"), std::string("\xE4\xBD\xA0\xE5\xA5\xBD"), COMMON_PEG_PARSE_RESULT_SUCCESS},
// Emoji before delimiter
 {std::string("\xF0\x9F\x98\x80</tag>"), std::string("\xF0\x9F\x98\x80"), COMMON_PEG_PARSE_RESULT_SUCCESS},
// Mixed content
 {std::string("Hello \xE4\xB8\x96\xE7\x95\x8C!</tag>"), std::string("Hello \xE4\xB8\x96\xE7\x95\x8C!"), COMMON_PEG_PARSE_RESULT_SUCCESS},
 };
auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.until("</tag>");
 });
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 common_peg_parse_context ctx(tc.input);
 auto result = parser.parse(ctx);
assert_result_equal(t, tc.expected_result, result.type);
if (result.success()) {
 std::string matched = tc.input.substr(result.start, result.end - result.start);
 t.assert_equal(tc.expected_text, matched);
 }
 });
 }
 });
t.test("incomplete UTF-8 at end", [](testing &t) {
 std::vector<test_case> test_cases {
 // Incomplete emoji at end, no delimiter
 {std::string("content\xF0\x9F\x98"), std::string("content"), COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
// Incomplete CJK at end, no delimiter
 {std::string("hello\xE4\xB8"), std::string("hello"), COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
// Complete content, no delimiter (should consume all valid UTF-8)
 {std::string("\xE4\xBD\xA0\xE5\xA5\xBD"), std::string("\xE4\xBD\xA0\xE5\xA5\xBD"), COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
 };
auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.until("</tag>");
 });
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 common_peg_parse_context ctx(tc.input, COMMON_PEG_PARSE_FLAG_LENIENT);
 auto result = parser.parse(ctx);
assert_result_equal(t, tc.expected_result, result.type);
if (result.success() || result.need_more_input()) {
 std::string matched = tc.input.substr(result.start, result.end - result.start);
 t.assert_equal(tc.expected_text, matched);
 }
 });
 }
 });
t.test("malformed UTF-8", [](testing &t) {
 std::vector<test_case> test_cases {
 // Invalid UTF-8 bytes
 {std::string("Hello\xFF\xFE"), "", COMMON_PEG_PARSE_RESULT_FAIL},
// Continuation byte without lead byte
 {std::string("Hello\x80World"), "", COMMON_PEG_PARSE_RESULT_FAIL},
// Invalid continuation byte
 {std::string("\xC3\x28"), "", COMMON_PEG_PARSE_RESULT_FAIL},
 };
auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.until("</tag>");
 });
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 common_peg_parse_context ctx(tc.input);
 auto result = parser.parse(ctx);
assert_result_equal(t, tc.expected_result, result.type);
 });
 }
 });
 });
t.test("json_string parser", [](testing &t) {
 t.test("valid UTF-8 characters", [](testing &t) {
 std::vector<test_case> test_cases {
 // ASCII only
 {"Hello World\"", "Hello World", COMMON_PEG_PARSE_RESULT_SUCCESS},
// 2-byte UTF-8 (accented characters)
 {std::string("Caf\xC3\xA9\""), std::string("Caf\xC3\xA9"), COMMON_PEG_PARSE_RESULT_SUCCESS},
// 3-byte UTF-8 (CJK)
 {std::string("\xE4\xBD\xA0\xE5\xA5\xBD\""), std::string("\xE4\xBD\xA0\xE5\xA5\xBD"), COMMON_PEG_PARSE_RESULT_SUCCESS},
// 4-byte UTF-8 (emoji)
 {std::string("\xF0\x9F\x98\x80\""), std::string("\xF0\x9F\x98\x80"), COMMON_PEG_PARSE_RESULT_SUCCESS},
// Mixed content
 {std::string("Hello \xE4\xB8\x96\xE7\x95\x8C!\""), std::string("Hello \xE4\xB8\x96\xE7\x95\x8C!"), COMMON_PEG_PARSE_RESULT_SUCCESS},
 };
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.sequence({p.string_content('"'), p.literal("\"")});
 });
common_peg_parse_context ctx(tc.input);
 auto result = parser.parse(ctx);
assert_result_equal(t, tc.expected_result, result.type);
if (result.success()) {
 std::string matched = tc.input.substr(result.start, result.end - result.start - 1); // -1 to exclude closing quote
 t.assert_equal(tc.expected_text, matched);
 }
 });
 }
 });
t.test("incomplete UTF-8", [](testing &t) {
 std::vector<test_case> test_cases {
 // Incomplete 2-byte sequence
 {std::string("Caf\xC3"), std::string("Caf"), COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
// Incomplete 3-byte sequence
 {std::string("Hello\xE4\xB8"), std::string("Hello"), COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
// Incomplete 4-byte sequence
 {std::string("Text\xF0\x9F\x98"), std::string("Text"), COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
// Incomplete at very start
 {std::string("\xE4\xBD"), std::string(""), COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT},
 };
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.string_content('"');
 });
common_peg_parse_context ctx(tc.input, COMMON_PEG_PARSE_FLAG_LENIENT);
 auto result = parser.parse(ctx);
assert_result_equal(t, tc.expected_result, result.type);
if (result.need_more_input()) {
 std::string matched = tc.input.substr(result.start, result.end - result.start);
 t.assert_equal(tc.expected_text, matched);
 }
 });
 }
 });
t.test("malformed UTF-8", [](testing &t) {
 std::vector<test_case> test_cases {
 // Invalid UTF-8 bytes
 {std::string("Hello\xFF\xFE"), "", COMMON_PEG_PARSE_RESULT_FAIL},
// Continuation byte without lead byte
 {std::string("Hello\x80World"), "", COMMON_PEG_PARSE_RESULT_FAIL},
// Invalid continuation byte
 {std::string("\xC3\x28"), "", COMMON_PEG_PARSE_RESULT_FAIL},
 };
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.string_content('"');
 });
common_peg_parse_context ctx(tc.input);
 auto result = parser.parse(ctx);
assert_result_equal(t, tc.expected_result, result.type);
 });
 }
 });
t.test("escape sequences with UTF-8", [](testing &t) {
 std::vector<test_case> test_cases {
 // Unicode escape sequence
 {"Hello\\u0041\"", "Hello\\u0041", COMMON_PEG_PARSE_RESULT_SUCCESS},
// Mix of UTF-8 and escape sequences
 {std::string("\xE4\xBD\xA0\\n\xE5\xA5\xBD\""), std::string("\xE4\xBD\xA0\\n\xE5\xA5\xBD"), COMMON_PEG_PARSE_RESULT_SUCCESS},
// Escaped quote in UTF-8 string
 {std::string("\xE4\xBD\xA0\\\"\xE5\xA5\xBD\""), std::string("\xE4\xBD\xA0\\\"\xE5\xA5\xBD"), COMMON_PEG_PARSE_RESULT_SUCCESS},
 };
for (size_t i = 0; i < test_cases.size(); i++) {
 const auto & tc = test_cases[i];
 std::string test_name = "case " + std::to_string(i) + ": " + hex_dump(tc.input);
t.test(test_name, [&](testing &t) {
 auto parser = build_peg_parser([](common_peg_parser_builder& p) {
 return p.sequence({p.string_content('"'), p.literal("\"")});
 });
common_peg_parse_context ctx(tc.input);
 auto result = parser.parse(ctx);
assert_result_equal(t, tc.expected_result, result.type);
if (result.success()) {
 std::string matched = tc.input.substr(result.start, result.end - result.start - 1); // -1 to exclude closing quote
 t.assert_equal(tc.expected_text, matched);
 }
 });
 }
 });
 });
}