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refactor(lex_parser): 移除旧的词法解析器实现并更新依赖

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移除了 libs/lex_parser 目录下的所有头文件和源文件,包括:
- lex_parser.h 和 lex_parser.c 核心解析功能
- 所有测试文件(test_char.c, test_identifier.c, test_number.c,
  test_skip_block_comment.c, test_skip_line.c, test_string.c)

更新了 lexer 模块的依赖配置,将 lex_parser 替换为 sstream,
同时更新了 lexer.h 中的相关包含头文件和数据结构定义,
简化了 scc_lexer_t 结构体的字段。
This commit is contained in:
zzy
2026-02-16 16:56:40 +08:00
parent 088050c903
commit 0e7dec202a
30 changed files with 1840 additions and 1979 deletions
Download Patch File Download Diff File Expand all files Collapse all files

32
libs/lex_parser/include/lex_parser.h
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@@ -1,32 +0,0 @@
#ifndef __SCC_LEX_PARSER_H__
#define __SCC_LEX_PARSER_H__
#include <scc_core.h>
static inline cbool scc_lex_parse_is_endline(int ch) {
return ch == '\n' || ch == '\r';
}
static inline cbool scc_lex_parse_is_whitespace(int ch) {
return ch == ' ' || ch == '\t';
}
// TODO identifier check is right?
static inline cbool scc_lex_parse_is_identifier_prefix(int ch) {
return (ch >= 'a' && ch <= 'z') || (ch >= 'A' && ch <= 'Z') || ch == '_';
}
int scc_lex_parse_char(scc_probe_stream_t *input, scc_pos_t *pos);
cbool scc_lex_parse_string(scc_probe_stream_t *input, scc_pos_t *pos,
scc_cstring_t *output);
cbool scc_lex_parse_number(scc_probe_stream_t *input, scc_pos_t *pos,
usize *output);
cbool scc_lex_parse_identifier(scc_probe_stream_t *input, scc_pos_t *pos,
scc_cstring_t *output);
void scc_lex_parse_skip_endline(scc_probe_stream_t *input, scc_pos_t *pos);
void scc_lex_parse_skip_block_comment(scc_probe_stream_t *input,
scc_pos_t *pos);
void scc_lex_parse_skip_line(scc_probe_stream_t *input, scc_pos_t *pos);
void scc_lex_parse_skip_whitespace(scc_probe_stream_t *input, scc_pos_t *pos);
#endif /* __SCC_LEX_PARSER_H__ */

434
libs/lex_parser/src/lex_parser.c
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@@ -1,434 +0,0 @@
#include <lex_parser.h>
void scc_lex_parse_skip_endline(scc_probe_stream_t *input, scc_pos_t *pos) {
Assert(input != null && pos != null);
// scc_probe_stream_reset(input);
int ch = scc_probe_stream_peek(input);
if (ch == '\r') {
scc_probe_stream_next(input);
ch = scc_probe_stream_peek(input);
if (ch == '\n') {
scc_probe_stream_next(input);
}
scc_pos_next_line(pos);
} else if (ch == '\n') {
scc_probe_stream_next(input);
scc_pos_next_line(pos);
} else {
LOG_WARN("not a newline character");
}
}
/**
* @brief
*
* @param ch
* @return int
* https://cppreference.cn/w/c/language/escape
* `\'` 单引号 在 ASCII 编码中为字节 0x27
* `\"` 双引号 在 ASCII 编码中为字节 0x22
* `\?` 问号 在 ASCII 编码中为字节 0x3f
* `\\` 反斜杠 在 ASCII 编码中为字节 0x5c
* `\a` 响铃 在 ASCII 编码中为字节 0x07
* `\b` 退格 在 ASCII 编码中为字节 0x08
* `\f` 换页 - 新页 在 ASCII 编码中为字节 0x0c
* `\n` 换行 - 新行 在 ASCII 编码中为字节 0x0a
* `\r` 回车 在 ASCII 编码中为字节 0x0d
* `\t` 水平制表符 在 ASCII 编码中为字节 0x09
* `\v` 垂直制表符 在 ASCII 编码中为字节 0x0b
*/
static inline int got_simple_escape(int ch) {
/* clang-format off */
#define CASE(ch) case ch: return ch;
switch (ch) {
case '\'': return '\'';
case '\"': return '\"';
case '\?': return '\?';
case '\\': return '\\';
case 'a': return '\a';
case 'b': return '\b';
case 'f': return '\f';
case 'n': return '\n';
case 'r': return '\r';
case 't': return '\t';
case 'v': return '\v';
default: return -1;
}
/* clang-format on */
}
void scc_lex_parse_skip_line(scc_probe_stream_t *input, scc_pos_t *pos) {
scc_probe_stream_t *stream = input;
Assert(stream != null && pos != null);
// scc_probe_stream_reset(stream);
while (1) {
int ch = scc_probe_stream_peek(stream);
if (ch == scc_stream_eof) {
return;
}
// TODO endline
if (scc_lex_parse_is_endline(ch)) {
scc_lex_parse_skip_endline(stream, pos);
return;
} else {
scc_probe_stream_next(stream);
scc_pos_next(pos);
}
}
}
void scc_lex_parse_skip_block_comment(scc_probe_stream_t *input,
scc_pos_t *pos) {
scc_probe_stream_t *stream = input;
Assert(stream != null && pos != null);
int ch;
// scc_probe_stream_reset(stream);
ch = scc_probe_stream_next(stream);
scc_pos_next(pos);
// FIXME Assertion
Assert(ch == '/');
ch = scc_probe_stream_next(stream);
scc_pos_next(pos);
Assert(ch == '*');
// all ready match `/*`
while (1) {
// scc_probe_stream_reset(stream);
ch = scc_probe_stream_peek(stream);
if (ch == scc_stream_eof) {
LOG_WARN("Unterminated block comment");
return;
}
if (scc_lex_parse_is_endline(ch)) {
scc_lex_parse_skip_endline(stream, pos);
continue;
}
scc_probe_stream_next(stream);
scc_pos_next(pos);
if (ch == '*') {
ch = scc_probe_stream_peek(stream);
if (ch == '/') {
scc_probe_stream_next(stream);
scc_pos_next(pos);
return;
}
}
}
}
void scc_lex_parse_skip_whitespace(scc_probe_stream_t *input, scc_pos_t *pos) {
scc_probe_stream_t *stream = input;
Assert(stream != null && pos != null);
// scc_probe_stream_reset(stream);
while (1) {
int ch = scc_probe_stream_peek(stream);
if (!scc_lex_parse_is_whitespace(ch)) {
return;
}
scc_probe_stream_next(stream);
scc_pos_next(pos);
}
}
static inline cbool _lex_parse_uint(scc_probe_stream_t *input, scc_pos_t *pos,
int base, usize *output) {
Assert(input != null && pos != null);
if (input == null || pos == null) {
return false;
}
Assert(base == 2 || base == 8 || base == 10 || base == 16);
// scc_probe_stream_reset(input);
int ch, tmp;
usize n = 0;
usize offset = pos->offset;
while (1) {
ch = scc_probe_stream_peek(input);
if (ch == scc_stream_eof) {
break;
} else if (ch >= 'a' && ch <= 'z') {
tmp = ch - 'a' + 10;
} else if (ch >= 'A' && ch <= 'Z') {
tmp = ch - 'A' + 10;
} else if (ch >= '0' && ch <= '9') {
tmp = ch - '0';
} else {
break;
}
if (tmp >= base) {
LOG_ERROR("Invalid digit");
return false;
}
scc_probe_stream_next(input);
scc_pos_next(pos);
n = n * base + tmp;
// TODO number overflow
}
if (offset == pos->offset) {
// None match any number
return false;
}
*output = n;
return true;
}
/**
* @brief
*
* @param input
* @param pos
* @return int
* https://cppreference.cn/w/c/language/character_constant
*/
int scc_lex_parse_char(scc_probe_stream_t *input, scc_pos_t *pos) {
scc_probe_stream_t *stream = input;
Assert(stream != null && pos != null);
int ch = scc_probe_stream_next(stream);
scc_pos_next(pos);
int ret = scc_stream_eof;
if (ch == scc_stream_eof) {
LOG_WARN("Unexpected EOF at begin");
goto ERR;
} else if (ch != '\'') {
LOG_WARN("Unexpected character '%c' at begin", ch);
goto ERR;
}
// scc_probe_stream_next(stream);
ch = scc_probe_stream_next(stream);
scc_pos_next(pos);
if (ch == scc_stream_eof) {
LOG_WARN("Unexpected EOF at middle");
goto ERR;
} else if (ch == '\\') {
ch = scc_probe_stream_next(stream);
scc_pos_next(pos);
if (ch == '0') {
// 数字转义序列
// \nnn 任意八进制值 码元 nnn
// FIXME 这里如果返回 0 理论上为错误但是恰好与正确值相同
ret = 0;
_lex_parse_uint(stream, pos, 8, (usize *)&ret);
} else if (ch == 'x') {
// TODO https://cppreference.cn/w/c/language/escape
// \xn... 任意十六进制值 码元 n... (任意数量的十六进制数字)
// 通用字符名
TODO();
} else if (ch == 'u' || ch == 'U') {
// \unnnn (C99 起) Unicode 值在允许范围内;
// 可能产生多个码元 码点 U+nnnn
// \Unnnnnnnn (C99 起) Unicode 值在允许范围内;
// 可能产生多个码元 码点 U+nnnnnnnn
TODO();
} else if ((ret = got_simple_escape(ch)) == -1) {
LOG_ERROR("Invalid escape character");
goto ERR;
}
} else {
ret = ch;
}
if ((ch = scc_probe_stream_next(stream)) != '\'') {
LOG_ERROR("Unclosed character literal '%c' at end, expect `'`", ch);
scc_pos_next(pos);
goto ERR;
}
return ret;
ERR:
return scc_stream_eof;
}
/**
* @brief
*
* @param input
* @param pos
* @param output
* @return cbool
* https://cppreference.cn/w/c/language/string_literal
*/
cbool scc_lex_parse_string(scc_probe_stream_t *input, scc_pos_t *pos,
scc_cstring_t *output) {
scc_probe_stream_t *stream = input;
Assert(stream != null && pos != null && output != null);
// scc_probe_stream_reset(stream);
int ch = scc_probe_stream_peek(stream);
Assert(scc_cstring_is_empty(output));
if (ch == scc_stream_eof) {
LOG_WARN("Unexpected EOF at begin");
goto ERR;
} else if (ch != '"') {
LOG_WARN("Unexpected character '%c' at begin", ch);
goto ERR;
}
scc_probe_stream_next(stream);
scc_pos_next(pos);
scc_cstring_t str = scc_cstring_from_cstr("");
while (1) {
ch = scc_probe_stream_peek(stream);
if (ch == scc_stream_eof) {
LOG_ERROR("Unexpected EOF at string literal");
goto ERR;
} else if (scc_lex_parse_is_endline(ch)) {
LOG_ERROR("Unexpected newline at string literal");
goto ERR;
} else if (ch == '\\') {
// TODO bad practice and maybe bugs here
scc_probe_stream_next(stream);
ch = scc_probe_stream_next(stream);
int val = got_simple_escape(ch);
if (val == -1) {
LOG_ERROR("Invalid escape character it is \\%c [%d]", ch, ch);
} else {
scc_cstring_append_ch(&str, val);
continue;
}
} else if (ch == '"') {
scc_probe_stream_next(stream);
scc_pos_next(pos);
break;
}
scc_probe_stream_next(stream);
scc_pos_next(pos);
scc_cstring_append_ch(&str, ch);
}
*output = str;
return true;
ERR:
scc_cstring_free(&str);
return false;
}
/**
* @brief
*
* @param input
* @param pos
* @param output
* @return cbool
* https://cppreference.cn/w/c/language/integer_constant
*/
cbool scc_lex_parse_number(scc_probe_stream_t *input, scc_pos_t *pos,
usize *output) {
scc_probe_stream_t *stream = input;
Assert(stream != null && pos != null && output != null);
// scc_probe_stream_reset(stream);
int ch = scc_probe_stream_peek(stream);
int base = 10; // 默认十进制
if (ch == scc_stream_eof) {
LOG_WARN("Unexpected EOF at begin");
goto ERR;
}
if (ch == '0') {
// 消费 '0'
scc_probe_stream_next(stream);
scc_pos_next(pos);
// 查看下一个字符
ch = scc_probe_stream_peek(stream);
if (ch == 'x' || ch == 'X') {
// 十六进制
base = 16;
scc_probe_stream_next(stream);
scc_pos_next(pos);
} else if (ch == 'b' || ch == 'B') {
// 二进制 (C23扩展)
base = 2;
scc_probe_stream_next(stream);
scc_pos_next(pos);
} else if (ch >= '0' && ch <= '7') {
// 八进制
base = 8;
// 不消费,数字将由 _lex_parse_uint 处理
} else if (ch == '8' || ch == '9') {
LOG_ERROR("Invalid digit '%d' in octal literal", ch);
return false;
} else {
// 只是0十进制
*output = 0;
return true;
}
} else if (ch >= '1' && ch <= '9') {
// 十进制,不消费,由 _lex_parse_uint 处理
base = 10;
} else {
// 无效的数字
return false;
}
// 解析整数部分
// scc_probe_stream_reset(stream);
usize n;
if (_lex_parse_uint(stream, pos, base, &n) == false) {
// 如果没有匹配任何数字,但输入是 '0',已经处理过了
// 对于十进制数字,至少应该有一个数字
if (base == 10) {
// 单个数字的情况,例如 "1"
// 我们需要消费这个数字并返回它的值
if (ch >= '1' && ch <= '9') {
scc_probe_stream_next(stream);
scc_pos_next(pos);
*output = ch - '0';
return true;
}
}
return false;
}
*output = n;
return true;
ERR:
return false;
}
/**
* @brief
*
* @param input
* @param pos
* @param output
* @return cbool
* https://cppreference.cn/w/c/language/identifier
*/
cbool scc_lex_parse_identifier(scc_probe_stream_t *input, scc_pos_t *pos,
scc_cstring_t *output) {
Assert(input != null && pos != null && output != null);
Assert(scc_cstring_is_empty(output));
scc_probe_stream_t *stream = input;
// scc_probe_stream_reset(stream);
int ch = scc_probe_stream_peek(stream);
if (ch == scc_stream_eof) {
LOG_WARN("Unexpected EOF at begin");
} else if (scc_lex_parse_is_identifier_prefix(ch)) {
while (1) {
scc_cstring_append_ch(output, ch);
scc_probe_stream_next(stream);
scc_pos_next(pos);
ch = scc_probe_stream_peek(stream);
if ((ch >= 'a' && ch <= 'z') || (ch >= 'A' && ch <= 'Z') ||
(ch == '_') || (ch >= '0' && ch <= '9')) {
continue;
}
break;
}
return true;
}
return false;
}

64
libs/lex_parser/tests/test_char.c
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@@ -1,64 +0,0 @@
// test_char.c
#include <lex_parser.h>
#include <utest/acutest.h>
cbool check_char(const char *str, int expect, int *output) {
log_set_level(&__default_logger_root, 0);
scc_pos_t pos = scc_pos_create();
scc_mem_probe_stream_t mem_stream;
scc_probe_stream_t *stream =
scc_mem_probe_stream_init(&mem_stream, str, scc_strlen(str), false);
*output = scc_lex_parse_char(stream, &pos);
cbool ret1 = *output == expect;
scc_probe_stream_reset(stream);
*output = scc_lex_parse_char(stream, &pos);
cbool ret2 = *output == expect;
return ret1 && ret2;
}
#define CHECK_CHAR_VALID(str, expect) \
do { \
int _output; \
cbool ret = check_char(str, expect, &_output); \
TEST_CHECK(ret == true); \
} while (0)
#define CHECK_CHAR_INVALID(str) \
do { \
int _output; \
check_char(str, scc_stream_eof, &_output); \
TEST_CHECK(_output == scc_stream_eof); \
} while (0)
void test_simple_char(void) {
TEST_CASE("simple chars");
CHECK_CHAR_VALID("'a'", 'a');
CHECK_CHAR_VALID("'Z'", 'Z');
CHECK_CHAR_VALID("'0'", '0');
CHECK_CHAR_VALID("' '", ' ');
}
void test_escape_char(void) {
TEST_CASE("escape chars");
CHECK_CHAR_VALID("'\\n'", '\n');
CHECK_CHAR_VALID("'\\t'", '\t');
CHECK_CHAR_VALID("'\\r'", '\r');
CHECK_CHAR_VALID("'\\\\'", '\\');
CHECK_CHAR_VALID("'\\''", '\'');
CHECK_CHAR_VALID("'\\\"'", '\"');
}
void test_invalid_char(void) {
TEST_CASE("invalid chars");
CHECK_CHAR_INVALID("'");
CHECK_CHAR_INVALID("''");
CHECK_CHAR_INVALID("'ab'");
CHECK_CHAR_INVALID("'\\'");
}
TEST_LIST = {
{"test_simple_char", test_simple_char},
{"test_escape_char", test_escape_char},
{"test_invalid_char", test_invalid_char},
{NULL, NULL},
};

56
libs/lex_parser/tests/test_identifier.c
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@@ -1,56 +0,0 @@
// test_identifier.c
#include <lex_parser.h>
#include <utest/acutest.h>
cbool check_identifier(const char *str, const char *expect,
scc_cstring_t *output) {
log_set_level(&__default_logger_root, 0);
scc_pos_t pos = scc_pos_create();
scc_mem_probe_stream_t mem_stream;
scc_probe_stream_t *stream =
scc_mem_probe_stream_init(&mem_stream, str, scc_strlen(str), false);
cbool ret = scc_lex_parse_identifier(stream, &pos, output);
if (ret && expect) {
return strcmp(output->data, expect) == 0;
}
return ret;
}
#define CHECK_IDENTIFIER_VALID(str, expect) \
do { \
scc_cstring_t _output = scc_cstring_create(); \
cbool ret = check_identifier(str, expect, &_output); \
TEST_CHECK(ret == true); \
TEST_CHECK(strcmp(_output.data, expect) == 0); \
scc_cstring_free(&_output); \
} while (0)
#define CHECK_IDENTIFIER_INVALID(str) \
do { \
scc_cstring_t _output = scc_cstring_create(); \
cbool ret = check_identifier(str, NULL, &_output); \
TEST_CHECK(ret == false); \
scc_cstring_free(&_output); \
} while (0)
void test_valid_identifier(void) {
TEST_CASE("valid identifiers");
CHECK_IDENTIFIER_VALID("variable", "variable");
CHECK_IDENTIFIER_VALID("my_var", "my_var");
CHECK_IDENTIFIER_VALID("_private", "_private");
CHECK_IDENTIFIER_VALID("Var123", "Var123");
CHECK_IDENTIFIER_VALID("a", "a");
}
void test_invalid_identifier(void) {
TEST_CASE("invalid identifiers");
CHECK_IDENTIFIER_INVALID("");
CHECK_IDENTIFIER_INVALID("123var");
}
TEST_LIST = {
{"test_valid_identifier", test_valid_identifier},
{"test_invalid_identifier", test_invalid_identifier},
{NULL, NULL},
};

135
libs/lex_parser/tests/test_number.c
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@@ -1,135 +0,0 @@
#include <lex_parser.h>
#include <utest/acutest.h>
cbool check(const char *str, usize expect, usize *output) {
// TODO maybe have other logger
(void)(expect);
log_set_level(&__default_logger_root, 0);
scc_pos_t pos = scc_pos_create();
scc_mem_probe_stream_t mem_stream;
scc_probe_stream_t *stream =
scc_mem_probe_stream_init(&mem_stream, str, scc_strlen(str), false);
return scc_lex_parse_number(stream, &pos, output);
}
#define CHECK_VALID(str, expect) \
do { \
usize _output; \
cbool ret = check(str, expect, &_output); \
TEST_CHECK(ret == true); \
TEST_CHECK(_output == expect); \
TEST_MSG("Produced: %llu", _output); \
} while (0)
#define CHECK_INVALID(str) \
do { \
usize _output; \
cbool ret = check(str, 0, &_output); \
TEST_CHECK(ret == false); \
} while (0)
void test_simple_hex(void) {
TEST_CASE("lowercase hex");
CHECK_VALID("0xff", 255);
CHECK_VALID("0x0", 0);
CHECK_VALID("0xa", 10);
CHECK_VALID("0xf", 15);
CHECK_VALID("0x1a", 26);
TEST_CASE("uppercase hex");
CHECK_VALID("0xFF", 255);
CHECK_VALID("0xA0", 160);
CHECK_VALID("0xCAFEBABE", 3405691582);
TEST_CASE("mixed case hex");
CHECK_VALID("0xFf", 255);
CHECK_VALID("0xCaFeBaBe", 3405691582);
TEST_CASE("larger hex values");
CHECK_VALID("0xff00", 65280);
CHECK_VALID("0xFFFF", 65535);
TEST_CASE("invalid hex");
CHECK_INVALID("0xG"); // Invalid hex digit
CHECK_INVALID("0xyz"); // Invalid prefix
CHECK_INVALID("0x"); // Incomplete hex
}
void test_simple_oct(void) {
TEST_CASE("basic octal");
CHECK_VALID("00", 0);
CHECK_VALID("01", 1);
CHECK_VALID("07", 7);
TEST_CASE("multi-digit octal");
CHECK_VALID("010", 8);
CHECK_VALID("017", 15);
CHECK_VALID("077", 63);
TEST_CASE("larger octal values");
CHECK_VALID("0177", 127);
CHECK_VALID("0377", 255);
CHECK_VALID("0777", 511);
TEST_CASE("invalid octal");
CHECK_INVALID("08"); // Invalid octal digit
CHECK_INVALID("09"); // Invalid octal digit
}
void test_simple_dec(void) {
TEST_CASE("single digits");
CHECK_VALID("0", 0);
CHECK_VALID("1", 1);
CHECK_VALID("9", 9);
TEST_CASE("multi-digit decimal");
CHECK_VALID("10", 10);
CHECK_VALID("42", 42);
CHECK_VALID("123", 123);
TEST_CASE("larger decimal values");
CHECK_VALID("999", 999);
CHECK_VALID("1234", 1234);
CHECK_VALID("65535", 65535);
}
void test_simple_bin(void) {
TEST_CASE("basic binary");
CHECK_VALID("0b0", 0);
CHECK_VALID("0b1", 1);
TEST_CASE("multi-digit binary");
CHECK_VALID("0b10", 2);
CHECK_VALID("0b11", 3);
CHECK_VALID("0b100", 4);
CHECK_VALID("0b1010", 10);
TEST_CASE("larger binary values");
CHECK_VALID("0b1111", 15);
CHECK_VALID("0b11111111", 255);
CHECK_VALID("0b10101010", 170);
TEST_CASE("invalid binary");
CHECK_INVALID("0b2"); // Invalid binary digit
CHECK_INVALID("0b3"); // Invalid binary digit
CHECK_INVALID("0b"); // Incomplete binary
}
void test_edge_cases(void) {
TEST_CASE("empty string");
CHECK_INVALID(""); // Empty string
TEST_CASE("non-numeric strings");
CHECK_INVALID("abc"); // Non-numeric
CHECK_INVALID("xyz"); // Non-numeric
TEST_CASE("mixed invalid formats");
CHECK_INVALID("0x1G"); // Mixed valid/invalid hex
CHECK_INVALID("0b12"); // Mixed valid/invalid binary
}
TEST_LIST = {
{"test_simple_hex", test_simple_hex}, {"test_simple_oct", test_simple_oct},
{"test_simple_dec", test_simple_dec}, {"test_simple_bin", test_simple_bin},
{"test_edge_cases", test_edge_cases}, {NULL, NULL},
};

52
libs/lex_parser/tests/test_skip_block_comment.c
View File

@@ -1,52 +0,0 @@
// test_skip_block_comment.c
#include <lex_parser.h>
#include <utest/acutest.h>
void check_skip_block_comment(const char *str, const char *expect_remaining) {
log_set_level(&__default_logger_root, 0);
scc_pos_t pos = scc_pos_create();
scc_mem_probe_stream_t mem_stream;
scc_probe_stream_t *stream =
scc_mem_probe_stream_init(&mem_stream, str, scc_strlen(str), false);
scc_lex_parse_skip_block_comment(stream, &pos);
scc_probe_stream_sync(stream);
// Check remaining content
char buffer[256] = {0};
int i = 0;
int ch;
while ((ch = scc_probe_stream_consume(stream)) != scc_stream_eof &&
i < 255) {
buffer[i++] = (char)ch;
}
if (expect_remaining) {
TEST_CHECK(strcmp(buffer, expect_remaining) == 0);
}
}
void test_simple_block_comment(void) {
TEST_CASE("simple block comments");
check_skip_block_comment("/* comment */", "");
check_skip_block_comment("/* comment */ int x;", " int x;");
}
void test_multiline_block_comment(void) {
TEST_CASE("multiline block comments");
check_skip_block_comment("/* line1\nline2 */", "");
check_skip_block_comment("/* line1\nline2 */ int x;", " int x;");
}
void test_nested_asterisk_block_comment(void) {
TEST_CASE("nested asterisk block comments");
check_skip_block_comment("/* *** */", "");
check_skip_block_comment("/* *** */ int x;", " int x;");
}
TEST_LIST = {
{"test_simple_block_comment", test_simple_block_comment},
{"test_multiline_block_comment", test_multiline_block_comment},
{"test_nested_asterisk_block_comment", test_nested_asterisk_block_comment},
{NULL, NULL},
};

51
libs/lex_parser/tests/test_skip_line.c
View File

@@ -1,51 +0,0 @@
// test_skip_line.c
#include <lex_parser.h>
#include <utest/acutest.h>
void check_skip_line(const char *str, const char *expect_remaining) {
log_set_level(&__default_logger_root, 0);
scc_pos_t pos = scc_pos_create();
scc_mem_probe_stream_t mem_stream;
scc_probe_stream_t *stream =
scc_mem_probe_stream_init(&mem_stream, str, scc_strlen(str), false);
scc_lex_parse_skip_line(stream, &pos);
scc_probe_stream_sync(stream);
// Check remaining content
char buffer[256] = {0};
int i = 0;
int ch;
while ((ch = scc_probe_stream_consume(stream)) != scc_stream_eof &&
i < 255) {
buffer[i++] = (char)ch;
}
if (expect_remaining) {
TEST_CHECK(strcmp(buffer, expect_remaining) == 0);
}
}
void test_simple_line_comment(void) {
TEST_CASE("simple line comments");
check_skip_line("// comment\n", "");
check_skip_line("// comment\nint x;", "int x;");
}
void test_crlf_line_comment(void) {
TEST_CASE("CRLF line comments");
check_skip_line("// comment\r\n", "");
check_skip_line("// comment\r\nint x;", "int x;");
}
void test_eof_line_comment(void) {
TEST_CASE("EOF line comments");
check_skip_line("// comment", "");
}
TEST_LIST = {
{"test_simple_line_comment", test_simple_line_comment},
{"test_crlf_line_comment", test_crlf_line_comment},
{"test_eof_line_comment", test_eof_line_comment},
{NULL, NULL},
};

62
libs/lex_parser/tests/test_string.c
View File

@@ -1,62 +0,0 @@
// test_string.c
#include <lex_parser.h>
#include <utest/acutest.h>
cbool check_string(const char *str, const char *expect, scc_cstring_t *output) {
log_set_level(&__default_logger_root, 0);
scc_pos_t pos = scc_pos_create();
scc_mem_probe_stream_t mem_stream;
scc_probe_stream_t *stream =
scc_mem_probe_stream_init(&mem_stream, str, scc_strlen(str), false);
cbool ret = scc_lex_parse_string(stream, &pos, output);
if (ret && expect) {
return strcmp(output->data, expect) == 0;
}
return ret;
}
#define CHECK_STRING_VALID(str, expect) \
do { \
scc_cstring_t _output = scc_cstring_create(); \
cbool ret = check_string(str, expect, &_output); \
TEST_CHECK(ret == true); \
TEST_CHECK(strcmp(_output.data, expect) == 0); \
scc_cstring_free(&_output); \
} while (0)
#define CHECK_STRING_INVALID(str) \
do { \
scc_cstring_t _output = scc_cstring_create(); \
cbool ret = check_string(str, NULL, &_output); \
TEST_CHECK(ret == false); \
scc_cstring_free(&_output); \
} while (0)
void test_simple_string(void) {
TEST_CASE("simple strings");
CHECK_STRING_VALID("\"\"", "");
CHECK_STRING_VALID("\"hello\"", "hello");
CHECK_STRING_VALID("\"hello world\"", "hello world");
}
void test_escape_string(void) {
TEST_CASE("escape strings");
CHECK_STRING_VALID("\"\\n\"", "\n");
CHECK_STRING_VALID("\"\\t\"", "\t");
CHECK_STRING_VALID("\"\\\"\"", "\"");
CHECK_STRING_VALID("\"Hello\\nWorld\"", "Hello\nWorld");
}
void test_invalid_string(void) {
TEST_CASE("invalid strings");
CHECK_STRING_INVALID("\"unterminated");
CHECK_STRING_INVALID("\"newline\n\"");
}
TEST_LIST = {
{"test_simple_string", test_simple_string},
{"test_escape_string", test_escape_string},
{"test_invalid_string", test_invalid_string},
{NULL, NULL},
};

2
libs/lexer/cbuild.toml
View File

@@ -4,5 +4,5 @@ version = "0.1.0"
dependencies = [
{ name = "scc_core", path = "../../runtime/scc_core" },
{ name = "lex_parser", path = "../lex_parser" },
{ name = "lex_parser", path = "../sstream" },
]

12
libs/lexer/include/lexer.h
View File

@@ -8,6 +8,7 @@
#include "lexer_token.h"
#include <scc_core.h>
#include <scc_sstream.h>
/**
* @brief 词法分析器核心结构体
@@ -15,16 +16,11 @@
* 封装词法分析所需的状态信息和缓冲区管理
*/
typedef struct scc_lexer {
scc_probe_stream_t *stream;
scc_pos_t pos;
scc_sstream_ring_t stream_ref;
int jump_macro;
} scc_lexer_t;
/**
* @brief 初始化词法分析器
* @param[out] lexer 要初始化的词法分析器实例
* @param[in] stream 输入流对象指针
*/
void scc_lexer_init(scc_lexer_t *lexer, scc_probe_stream_t *stream);
void scc_lexer_init(scc_lexer_t *lexer, scc_sstream_ring_t *stream_ref);
/**
* @brief 获取原始token

119
libs/lexer/include/lexer_token.h
View File

@@ -2,6 +2,7 @@
#define __SCC_LEXER_TOKEN_H__
#include <scc_core.h>
#include <scc_pos.h>
typedef enum scc_cstd {
SCC_CSTD_C89,
@@ -54,64 +55,64 @@ typedef enum scc_cstd {
// KEYWORD_TABLE
#define SCC_CTOK_TABLE \
X(unknown , SCC_TOK_SUBTYPE_INVALID, SCC_TOK_UNKNOWN ) \
X(EOF , SCC_TOK_SUBTYPE_EOF, SCC_TOK_EOF ) \
X(blank , SCC_TOK_SUBTYPE_EMPTYSPACE, SCC_TOK_BLANK ) \
X(endline , SCC_TOK_SUBTYPE_EMPTYSPACE, SCC_TOK_ENDLINE ) \
X("#" , SCC_TOK_SUBTYPE_EMPTYSPACE, SCC_TOK_SHARP ) \
X("==" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_EQ ) \
X("=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN ) \
X("++" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ADD_ADD ) \
X("+=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_ADD ) \
X("+" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ADD ) \
X("--" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_SUB_SUB ) \
X("-=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_SUB ) \
X("->" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_DEREF ) \
X("-" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_SUB ) \
X("*=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_MUL ) \
X("*" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_MUL ) \
X("/=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_DIV ) \
X("/" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_DIV ) \
X("//" , SCC_TOK_SUBTYPE_COMMENT , SCC_TOK_LINE_COMMENT ) \
X("/* */" , SCC_TOK_SUBTYPE_COMMENT , SCC_TOK_BLOCK_COMMENT ) \
X("%=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_MOD ) \
X("%" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_MOD ) \
X("&&" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_AND_AND ) \
X("&=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_AND ) \
X("&" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_AND ) \
X("||" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_OR_OR ) \
X("|=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_OR ) \
X("|" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_OR ) \
X("^=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_XOR ) \
X("^" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_XOR ) \
X("<<=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_L_SH ) \
X("<<" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_L_SH ) \
X("<=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_LE ) \
X("<" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_LT ) \
X(">>=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_R_SH ) \
X(">>" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_R_SH ) \
X(">=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_GE ) \
X(">" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_GT ) \
X("!" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_NOT ) \
X("!=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_NEQ ) \
X("~" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_BIT_NOT ) \
X("[" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_L_BRACKET ) \
X("]" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_R_BRACKET ) \
X("(" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_L_PAREN ) \
X(")" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_R_PAREN ) \
X("{" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_L_BRACE ) \
X("}" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_R_BRACE ) \
X(";" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_SEMICOLON ) \
X("," , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_COMMA ) \
X(":" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_COLON ) \
X("." , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_DOT ) \
X("..." , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ELLIPSIS ) \
X("?" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_COND ) \
X(ident , SCC_TOK_SUBTYPE_IDENTIFIER, SCC_TOK_IDENT ) \
X(int_literal , SCC_TOK_SUBTYPE_LITERAL, SCC_TOK_INT_LITERAL ) \
X(float_literal , SCC_TOK_SUBTYPE_LITERAL, SCC_TOK_FLOAT_LITERAL ) \
X(char_literal , SCC_TOK_SUBTYPE_LITERAL, SCC_TOK_CHAR_LITERAL ) \
X(string_literal , SCC_TOK_SUBTYPE_LITERAL, SCC_TOK_STRING_LITERAL ) \
X(unknown , SCC_TOK_SUBTYPE_INVALID, SCC_TOK_UNKNOWN ) \
X(EOF , SCC_TOK_SUBTYPE_EOF, SCC_TOK_EOF ) \
X(blank , SCC_TOK_SUBTYPE_EMPTYSPACE, SCC_TOK_BLANK ) \
X(endline , SCC_TOK_SUBTYPE_EMPTYSPACE, SCC_TOK_ENDLINE ) \
X("#" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_SHARP ) \
X("==" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_EQ ) \
X("=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN ) \
X("++" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ADD_ADD ) \
X("+=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_ADD ) \
X("+" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ADD ) \
X("--" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_SUB_SUB ) \
X("-=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_SUB ) \
X("->" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_DEREF ) \
X("-" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_SUB ) \
X("*=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_MUL ) \
X("*" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_MUL ) \
X("/=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_DIV ) \
X("/" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_DIV ) \
X("//" , SCC_TOK_SUBTYPE_COMMENT , SCC_TOK_LINE_COMMENT ) \
X("/* */" , SCC_TOK_SUBTYPE_COMMENT , SCC_TOK_BLOCK_COMMENT ) \
X("%=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_MOD ) \
X("%" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_MOD ) \
X("&&" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_AND_AND ) \
X("&=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_AND ) \
X("&" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_AND ) \
X("||" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_OR_OR ) \
X("|=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_OR ) \
X("|" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_OR ) \
X("^=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_XOR ) \
X("^" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_XOR ) \
X("<<=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_L_SH ) \
X("<<" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_L_SH ) \
X("<=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_LE ) \
X("<" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_LT ) \
X(">>=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ASSIGN_R_SH ) \
X(">>" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_R_SH ) \
X(">=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_GE ) \
X(">" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_GT ) \
X("!" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_NOT ) \
X("!=" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_NEQ ) \
X("~" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_BIT_NOT ) \
X("[" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_L_BRACKET ) \
X("]" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_R_BRACKET ) \
X("(" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_L_PAREN ) \
X(")" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_R_PAREN ) \
X("{" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_L_BRACE ) \
X("}" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_R_BRACE ) \
X(";" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_SEMICOLON ) \
X("," , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_COMMA ) \
X(":" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_COLON ) \
X("." , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_DOT ) \
X("..." , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_ELLIPSIS ) \
X("?" , SCC_TOK_SUBTYPE_OPERATOR, SCC_TOK_COND ) \
X(ident , SCC_TOK_SUBTYPE_IDENTIFIER, SCC_TOK_IDENT ) \
X(int , SCC_TOK_SUBTYPE_LITERAL, SCC_TOK_INT_LITERAL ) \
X(float , SCC_TOK_SUBTYPE_LITERAL, SCC_TOK_FLOAT_LITERAL ) \
X(char , SCC_TOK_SUBTYPE_LITERAL, SCC_TOK_CHAR_LITERAL ) \
X(string , SCC_TOK_SUBTYPE_LITERAL, SCC_TOK_STRING_LITERAL ) \
// END
/* clang-format on */
@@ -145,7 +146,7 @@ const char *scc_get_tok_name(scc_tok_type_t type);
typedef struct scc_lexer_token {
scc_tok_type_t type;
scc_cvalue_t value;
scc_cstring_t lexeme;
scc_pos_t loc;
} scc_lexer_tok_t;

799
libs/lexer/src/lexer.c
View File

@@ -1,4 +1,3 @@
#include <lex_parser.h>
#include <lexer.h>
#include <lexer_log.h>
@@ -13,442 +12,460 @@ static const struct {
};
// by using binary search to find the keyword
static inline int keyword_cmp(const char *name, int len) {
static int keyword_cmp(const char *name, int len) {
int low = 0;
int high = sizeof(keywords) / sizeof(keywords[0]) - 1;
while (low <= high) {
int mid = (low + high) / 2;
const char *key = keywords[mid].name;
int cmp = 0;
// 自定义字符串比较逻辑
for (int i = 0; i < len; i++) {
if (name[i] != key[i]) {
cmp = (unsigned char)name[i] - (unsigned char)key[i];
break;
}
if (name[i] == '\0')
break; // 遇到终止符提前结束
break;
}
if (cmp == 0) {
// 完全匹配检查(长度相同)
if (key[len] == '\0')
return mid;
cmp = -1; // 当前关键词比输入长
cmp = -1;
}
if (cmp < 0) {
if (cmp < 0)
high = mid - 1;
} else {
else
low = mid + 1;
}
}
return -1; // Not a keyword.
return -1; // 不是关键字
}
void scc_lexer_init(scc_lexer_t *lexer, scc_probe_stream_t *stream) {
lexer->stream = stream;
lexer->pos = scc_pos_create();
// FIXME
lexer->pos.name = scc_cstring_copy(&stream->name);
void scc_lexer_init(scc_lexer_t *lexer, scc_sstream_ring_t *stream_ref) {
lexer->stream_ref = *stream_ref;
lexer->jump_macro = false;
}
static inline cbool is_whitespace(int ch) {
return ch == ' ' || ch == '\t' || ch == '\v' || ch == '\f';
}
static inline cbool is_newline(int ch) { return ch == '\n' || ch == '\r'; }
static inline cbool is_digit(int ch) { return ch >= '0' && ch <= '9'; }
static inline cbool is_alpha(int ch) {
return (ch >= 'a' && ch <= 'z') || (ch >= 'A' && ch <= 'Z');
}
static inline cbool is_alnum(int ch) { return is_alpha(ch) || is_digit(ch); }
static inline cbool is_identifier_start(int ch) {
return is_alpha(ch) || ch == '_';
}
static inline cbool is_identifier_part(int ch) {
return is_alnum(ch) || ch == '_';
}
static inline cbool is_octal_digit(int ch) { return ch >= '0' && ch <= '7'; }
static inline cbool is_hex_digit(int ch) {
return is_digit(ch) || (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F');
}
/* 从环形缓冲区预览一个字符带EOF检测 */
static inline cbool peek_char(scc_lexer_t *lexer, scc_sstream_char_t *out) {
cbool ok;
scc_ring_peek(lexer->stream_ref, *out, ok);
return ok;
}
/* 从环形缓冲区消费一个字符并将它追加到lexeme中 */
static inline cbool next_char(scc_lexer_t *lexer, scc_cstring_t *lexeme,
scc_sstream_char_t *out) {
cbool ok;
scc_ring_next(lexer->stream_ref, *out, ok);
if (!ok)
return false;
scc_cstring_append_ch(lexeme, out->character);
return true;
}
#define set_err_token(token) ((token)->type = SCC_TOK_UNKNOWN)
static void parse_line(scc_lexer_t *lexer, scc_lexer_tok_t *token) {
token->loc = lexer->pos;
scc_probe_stream_t *stream = lexer->stream;
scc_probe_stream_reset(stream);
int ch = scc_probe_stream_next(stream);
usize n;
scc_cstring_t str = scc_cstring_create();
if (ch == scc_stream_eof) {
LEX_WARN("Unexpected EOF at begin");
goto ERR;
} else if (ch != '#') {
LEX_WARN("Unexpected character '%c' at begin", ch);
goto ERR;
}
const char line[] = "line";
for (int i = 0; i < (int)sizeof(line); i++) {
ch = scc_probe_stream_consume(stream);
scc_pos_next(&lexer->pos);
if (ch != line[i]) {
LEX_WARN("Maroc does not support in lexer rather in preprocessor, "
"it will be ignored");
goto SKIP_LINE;
}
}
if (scc_lex_parse_number(stream, &lexer->pos, &n) == false) {
LEX_ERROR("Invalid line number");
goto SKIP_LINE;
}
if (scc_probe_stream_consume(stream) != ' ') {
scc_lex_parse_skip_line(stream, &lexer->pos);
token->loc.line = token->value.u;
}
if (scc_probe_stream_next(stream) != '"') {
LEX_ERROR("Invalid `#` line");
goto SKIP_LINE;
}
if (scc_lex_parse_string(stream, &lexer->pos, &str) == false) {
LEX_ERROR("Invalid filename");
goto SKIP_LINE;
}
scc_lex_parse_skip_line(stream, &lexer->pos);
scc_probe_stream_sync(stream);
token->loc.line = n;
// FIXME memory leak
token->loc.name = scc_cstring_copy(&str);
scc_cstring_free(&str);
return;
SKIP_LINE:
scc_lex_parse_skip_line(stream, &lexer->pos);
scc_probe_stream_sync(stream);
ERR:
set_err_token(token);
scc_cstring_free(&str);
}
// /zh/c/language/operator_arithmetic.html
void scc_lexer_get_token(scc_lexer_t *lexer, scc_lexer_tok_t *token) {
token->loc = lexer->pos;
token->type = SCC_TOK_UNKNOWN;
scc_probe_stream_t *stream = lexer->stream;
scc_sstream_char_t cur;
scc_cstring_t lex = scc_cstring_create(); // 临时lexeme
scc_probe_stream_reset(stream);
scc_tok_type_t type = SCC_TOK_UNKNOWN;
int ch = scc_probe_stream_next(stream);
// 尝试预览第一个字符
if (!peek_char(lexer, &cur)) {
token->type = SCC_TOK_EOF;
token->loc = (scc_pos_t){0, 1, 1, 0}; // 默认位置
token->lexeme = lex; // 空字符串
return;
}
// 记录起始位置
scc_pos_t start_loc = cur.pos;
int ch = cur.character;
// once step
switch (ch) {
case '=':
switch (scc_probe_stream_next(stream)) {
case '=':
type = SCC_TOK_EQ;
goto double_char;
default:
scc_probe_stream_reset(stream), type = SCC_TOK_ASSIGN;
break;
if (is_whitespace(ch)) {
// 空白符: 连续收集
token->type = SCC_TOK_BLANK;
while (peek_char(lexer, &cur) && is_whitespace(cur.character)) {
next_char(lexer, &lex, &cur);
}
break;
case '+':
switch (scc_probe_stream_next(stream)) {
case '+':
type = SCC_TOK_ADD_ADD;
goto double_char;
case '=':
type = SCC_TOK_ASSIGN_ADD;
goto double_char;
default:
scc_probe_stream_reset(stream), type = SCC_TOK_ADD;
break;
}
break;
case '-':
switch (scc_probe_stream_next(stream)) {
case '-':
type = SCC_TOK_SUB_SUB;
goto double_char;
case '=':
type = SCC_TOK_ASSIGN_SUB;
goto double_char;
case '>':
type = SCC_TOK_DEREF;
goto double_char;
default:
scc_probe_stream_reset(stream), type = SCC_TOK_SUB;
break;
}
break;
case '*':
switch (scc_probe_stream_next(stream)) {
case '=':
type = SCC_TOK_ASSIGN_MUL;
goto double_char;
default:
scc_probe_stream_reset(stream), type = SCC_TOK_MUL;
break;
}
break;
case '/':
switch (scc_probe_stream_next(stream)) {
case '=':
type = SCC_TOK_ASSIGN_DIV;
goto double_char;
case '/':
scc_probe_stream_reset(stream);
scc_lex_parse_skip_line(stream, &lexer->pos);
scc_probe_stream_sync(stream);
token->type = SCC_TOK_LINE_COMMENT;
goto END;
case '*':
scc_probe_stream_reset(stream);
scc_lex_parse_skip_block_comment(stream, &lexer->pos);
scc_probe_stream_sync(stream);
token->type = SCC_TOK_BLOCK_COMMENT;
goto END;
default:
scc_probe_stream_reset(stream), type = SCC_TOK_DIV;
break;
}
break;
case '%':
switch (scc_probe_stream_next(stream)) {
case '=':
type = SCC_TOK_ASSIGN_MOD;
goto double_char;
default:
scc_probe_stream_reset(stream), type = SCC_TOK_MOD;
break;
}
break;
case '&':
switch (scc_probe_stream_next(stream)) {
case '&':
type = SCC_TOK_AND_AND;
goto double_char;
case '=':
type = SCC_TOK_ASSIGN_AND;
goto double_char;
default:
scc_probe_stream_reset(stream), type = SCC_TOK_AND;
break;
}
break;
case '|':
switch (scc_probe_stream_next(stream)) {
case '|':
type = SCC_TOK_OR_OR;
goto double_char;
case '=':
type = SCC_TOK_ASSIGN_OR;
goto double_char;
default:
scc_probe_stream_reset(stream), type = SCC_TOK_OR;
break;
}
break;
case '^':
switch (scc_probe_stream_next(stream)) {
case '=':
type = SCC_TOK_ASSIGN_XOR;
goto double_char;
default:
scc_probe_stream_reset(stream), type = SCC_TOK_XOR;
break;
}
break;
case '<':
switch (scc_probe_stream_next(stream)) {
case '=':
type = SCC_TOK_LE;
goto double_char;
case '<': {
if (scc_probe_stream_next(stream) == '=') {
type = SCC_TOK_ASSIGN_L_SH;
goto triple_char;
} else {
type = SCC_TOK_L_SH;
goto double_char;
}
break;
}
default:
scc_probe_stream_reset(stream), type = SCC_TOK_LT;
break;
}
break;
case '>':
switch (scc_probe_stream_next(stream)) {
case '=':
type = SCC_TOK_GE;
goto double_char;
case '>': {
if (scc_probe_stream_next(stream) == '=') {
type = SCC_TOK_ASSIGN_R_SH;
goto triple_char;
} else {
type = SCC_TOK_R_SH;
goto double_char;
}
break;
}
default:
scc_probe_stream_reset(stream), type = SCC_TOK_GT;
break;
}
break;
case '~':
type = SCC_TOK_BIT_NOT;
break;
case '!':
switch (scc_probe_stream_next(stream)) {
case '=':
type = SCC_TOK_NEQ;
goto double_char;
default:
scc_probe_stream_reset(stream), type = SCC_TOK_NOT;
break;
}
break;
/* clang-format off */
case '[': type = SCC_TOK_L_BRACKET; break;
case ']': type = SCC_TOK_R_BRACKET; break;
case '(': type = SCC_TOK_L_PAREN; break;
case ')': type = SCC_TOK_R_PAREN; break;
case '{': type = SCC_TOK_L_BRACE; break;
case '}': type = SCC_TOK_R_BRACE; break;
case ';': type = SCC_TOK_SEMICOLON; break;
case ',': type = SCC_TOK_COMMA; break;
case ':': type = SCC_TOK_COLON; break;
/* clang-format on */
case '.':
if (scc_probe_stream_next(stream) == '.' &&
scc_probe_stream_next(stream) == '.') {
type = SCC_TOK_ELLIPSIS;
goto triple_char;
}
type = SCC_TOK_DOT;
break;
case '?':
type = SCC_TOK_COND;
break;
case '\v':
case '\f':
case ' ':
case '\t':
type = SCC_TOK_BLANK;
break;
case '\r':
case '\n':
scc_probe_stream_back(stream);
scc_lex_parse_skip_endline(stream, &lexer->pos);
scc_probe_stream_sync(stream);
} else if (is_newline(ch)) {
// 换行符:处理 \r 或 \n以及 \r\n 组合
token->type = SCC_TOK_ENDLINE;
goto END;
case '#':
parse_line(lexer, token);
token->type = SCC_TOK_SHARP;
goto END;
case '\0':
case scc_stream_eof:
// EOF
type = SCC_TOK_EOF;
break;
case '\'': {
token->loc = lexer->pos;
next_char(lexer, &lex, &cur); // 消费第一个字符
if (ch == '\r') {
// 尝试消费后面的 \n
if (peek_char(lexer, &cur) && cur.character == '\n') {
next_char(lexer, &lex, &cur);
}
}
} else if (ch == '/') {
// 可能为注释或除号
scc_sstream_char_t next = {0};
next_char(lexer, &lex, &cur); // 消费 '/'
peek_char(lexer, &next);
if (next.character == '=') {
token->type = SCC_TOK_ASSIGN_DIV;
next_char(lexer, &lex, &cur);
} else if (next.character == '/') {
// 行注释 //
token->type = SCC_TOK_LINE_COMMENT;
next_char(lexer, &lex, &cur); // 消费 '/'
while (peek_char(lexer, &cur) && !is_newline(cur.character)) {
next_char(lexer, &lex, &cur);
scc_ring_consume(lexer->stream_ref);
}
// 注释结束不包含换行符换行符单独成token
} else if (next.character == '*') {
// 块注释 /*
token->type = SCC_TOK_BLOCK_COMMENT;
next_char(lexer, &lex, &cur); // 消费 '*'
while (1) {
if (!next_char(lexer, &lex, &cur)) {
// 文件结束,注释未闭合
LOG_ERROR("Unterminated block comment");
break;
}
if (cur.character == '*' && peek_char(lexer, &next) &&
next.character == '/') {
next_char(lexer, &lex, &cur); // 消费 '/'
break;
}
scc_ring_consume(lexer->stream_ref);
}
} else {
// 只是除号 /
token->type = SCC_TOK_DIV;
}
} else if (is_identifier_start(ch)) {
// 标识符或关键字
token->type = SCC_TOK_IDENT; // 暂定
while (peek_char(lexer, &cur) && is_identifier_part(cur.character)) {
next_char(lexer, &lex, &cur);
scc_ring_consume(lexer->stream_ref);
}
// 检查是否为关键字
int idx = keyword_cmp(scc_cstring_as_cstr(&lex), scc_cstring_len(&lex));
if (idx != -1) {
token->type = keywords[idx].tok;
}
} else if (is_digit(ch)) {
// 数字字面量(整数/浮点)
token->type = SCC_TOK_INT_LITERAL; // 先假定整数
cbool maybe_float = false;
while (1) {
next_char(lexer, &lex, &cur); // 消费当前数字
if (!peek_char(lexer, &cur))
break;
ch = cur.character;
if (is_digit(ch) || (ch == '.' && !maybe_float)) {
if (ch == '.')
maybe_float = true;
continue;
}
if (ch == 'e' || ch == 'E' || ch == 'p' || ch == 'P') {
maybe_float = true;
// 后面可能跟符号或数字
continue;
}
if (ch == 'x' || ch == 'X') {
// 十六进制前缀,需特殊处理
// 这里简化:将整个序列作为整数(保留前缀)
continue;
}
break;
}
if (maybe_float)
token->type = SCC_TOK_FLOAT_LITERAL;
} else if (ch == '\'') {
// 字符字面量
token->type = SCC_TOK_CHAR_LITERAL;
scc_probe_stream_reset(stream);
int ch = scc_lex_parse_char(stream, &lexer->pos);
scc_probe_stream_sync(stream);
if (ch == scc_stream_eof) {
LEX_ERROR("Unexpected character literal");
token->type = SCC_TOK_UNKNOWN;
} else {
token->value.ch = ch;
next_char(lexer, &lex, &cur); // 开头的 '
while (1) {
if (!peek_char(lexer, &cur)) {
LOG_ERROR("Unterminated character literal");
break;
}
if (cur.character == '\'') {
next_char(lexer, &lex, &cur); // 闭引号
break;
}
if (cur.character == '\\') {
// 转义序列:原样保存反斜杠和下一个字符
next_char(lexer, &lex, &cur);
if (!peek_char(lexer, &cur))
break;
next_char(lexer, &lex, &cur);
} else {
next_char(lexer, &lex, &cur);
}
}
goto END;
}
case '"': {
token->loc = lexer->pos;
} else if (ch == '"') {
// 字符串字面量
token->type = SCC_TOK_STRING_LITERAL;
scc_cstring_t output = scc_cstring_create();
scc_probe_stream_reset(stream);
if (scc_lex_parse_string(stream, &lexer->pos, &output) == true) {
scc_probe_stream_sync(stream);
token->value.cstr.data = scc_cstring_as_cstr(&output);
token->value.cstr.len = scc_cstring_len(&output);
} else {
LEX_ERROR("Unexpected string literal");
next_char(lexer, &lex, &cur); // 开头的 "
while (1) {
if (!peek_char(lexer, &cur)) {
LOG_ERROR("Unterminated string literal");
break;
}
if (cur.character == '"') {
next_char(lexer, &lex, &cur); // 闭引号
break;
}
if (cur.character == '\\') {
// 转义序列
next_char(lexer, &lex, &cur);
if (!peek_char(lexer, &cur))
break;
next_char(lexer, &lex, &cur);
} else {
next_char(lexer, &lex, &cur);
}
scc_ring_consume(lexer->stream_ref);
}
} else {
scc_sstream_char_t next = {0};
next_char(lexer, &lex, &cur);
peek_char(lexer, &next);
switch (ch) {
case '=':
switch (next.character) {
case '=':
token->type = SCC_TOK_EQ;
next_char(lexer, &lex, &cur);
break;
default:
token->type = SCC_TOK_ASSIGN;
break;
}
break;
case '+':
switch (next.character) {
case '+':
token->type = SCC_TOK_ADD_ADD;
next_char(lexer, &lex, &cur);
break;
case '=':
token->type = SCC_TOK_ASSIGN_ADD;
next_char(lexer, &lex, &cur);
break;
default:
token->type = SCC_TOK_ADD;
break;
}
break;
case '-':
switch (next.character) {
case '-':
token->type = SCC_TOK_SUB_SUB;
next_char(lexer, &lex, &cur);
break;
case '=':
token->type = SCC_TOK_ASSIGN_SUB;
next_char(lexer, &lex, &cur);
break;
case '>':
token->type = SCC_TOK_DEREF;
next_char(lexer, &lex, &cur);
break;
default:
token->type = SCC_TOK_SUB;
break;
}
break;
case '*':
switch (next.character) {
case '=':
token->type = SCC_TOK_ASSIGN_MUL;
next_char(lexer, &lex, &cur);
break;
default:
token->type = SCC_TOK_MUL;
break;
}
break;
case '%':
switch (next.character) {
case '=':
token->type = SCC_TOK_ASSIGN_MOD;
next_char(lexer, &lex, &cur);
break;
default:
token->type = SCC_TOK_MOD;
break;
}
break;
case '&':
switch (next.character) {
case '&':
token->type = SCC_TOK_AND_AND;
next_char(lexer, &lex, &cur);
break;
case '=':
token->type = SCC_TOK_ASSIGN_AND;
next_char(lexer, &lex, &cur);
break;
default:
token->type = SCC_TOK_AND;
break;
}
break;
case '|':
switch (next.character) {
case '|':
token->type = SCC_TOK_OR_OR;
next_char(lexer, &lex, &cur);
break;
case '=':
token->type = SCC_TOK_ASSIGN_OR;
next_char(lexer, &lex, &cur);
break;
default:
token->type = SCC_TOK_OR;
break;
}
break;
case '^':
switch (next.character) {
case '=':
token->type = SCC_TOK_ASSIGN_XOR;
next_char(lexer, &lex, &cur);
break;
default:
token->type = SCC_TOK_XOR;
break;
}
break;
case '<':
switch (next.character) {
case '=':
token->type = SCC_TOK_LE;
next_char(lexer, &lex, &cur);
break;
case '<': {
next_char(lexer, &lex, &cur);
if (peek_char(lexer, &next) && next.character == '=') {
token->type = SCC_TOK_ASSIGN_L_SH;
next_char(lexer, &lex, &cur);
} else {
token->type = SCC_TOK_L_SH;
}
break;
}
default:
token->type = SCC_TOK_LT;
break;
}
break;
case '>':
switch (next.character) {
case '=':
token->type = SCC_TOK_GE;
next_char(lexer, &lex, &cur);
break;
case '>': {
next_char(lexer, &lex, &cur);
if (peek_char(lexer, &next) && next.character == '=') {
token->type = SCC_TOK_ASSIGN_R_SH;
next_char(lexer, &lex, &cur);
} else {
token->type = SCC_TOK_R_SH;
}
break;
}
default:
token->type = SCC_TOK_GT;
break;
}
break;
case '~':
token->type = SCC_TOK_BIT_NOT;
break;
case '!':
switch (next.character) {
case '=':
token->type = SCC_TOK_NEQ;
next_char(lexer, &lex, &cur);
break;
default:
token->type = SCC_TOK_NOT;
break;
}
break;
/* clang-format off */
case '[': token->type = SCC_TOK_L_BRACKET; break;
case ']': token->type = SCC_TOK_R_BRACKET; break;
case '(': token->type = SCC_TOK_L_PAREN; break;
case ')': token->type = SCC_TOK_R_PAREN; break;
case '{': token->type = SCC_TOK_L_BRACE; break;
case '}': token->type = SCC_TOK_R_BRACE; break;
case ';': token->type = SCC_TOK_SEMICOLON; break;
case ',': token->type = SCC_TOK_COMMA; break;
case ':': token->type = SCC_TOK_COLON; break;
/* clang-format on */
case '.':
if (next.character == '.' && peek_char(lexer, &next) &&
next.character == '.') {
token->type = SCC_TOK_ELLIPSIS;
next_char(lexer, &lex, &cur);
next_char(lexer, &lex, &cur);
} else {
token->type = SCC_TOK_DOT;
}
break;
case '?':
token->type = SCC_TOK_COND;
break;
case '#':
token->type = SCC_TOK_SHARP;
break;
default:
token->type = SCC_TOK_UNKNOWN;
LEX_ERROR("unsupport char in sourse code `%c`:0x%x", ch, ch);
break;
}
goto END;
}
/* clang-format off */
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
/* clang-format on */
token->loc = lexer->pos;
token->type = SCC_TOK_INT_LITERAL;
usize output;
scc_probe_stream_reset(stream);
if (scc_lex_parse_number(stream, &lexer->pos, &output) == true) {
scc_probe_stream_sync(stream);
token->value.u = output;
} else {
LEX_ERROR("Unexpected number literal");
token->type = SCC_TOK_UNKNOWN;
}
goto END;
/* clang-format off */
case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': case 'g':
case 'h': case 'i': case 'j': case 'k': case 'l': case 'm': case 'n':
case 'o': case 'p': case 'q': case 'r': case 's': case 't': case 'u':
case 'v': case 'w': case 'x': case 'y': case 'z':
case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case 'G':
case 'H': case 'I': case 'J': case 'K': case 'L': case 'M': case 'N':
case 'O': case 'P': case 'Q': case 'R': case 'S': case 'T': case 'U':
case 'V': case 'W': case 'X': case 'Y': case 'Z': case '_':
/* clang-format on */
scc_cstring_t str = scc_cstring_create();
scc_probe_stream_reset(stream);
cbool ret = scc_lex_parse_identifier(stream, &lexer->pos, &str);
scc_probe_stream_sync(stream);
Assert(ret == true);
int res = keyword_cmp(scc_cstring_as_cstr(&str), scc_cstring_len(&str));
if (res == -1) {
token->value.cstr.data = (char *)scc_cstring_as_cstr(&str);
token->value.cstr.len = scc_cstring_len(&str);
type = SCC_TOK_IDENT;
} else {
scc_cstring_free(&str);
type = keywords[res].tok;
}
token->type = type;
goto END;
default:
LEX_ERROR("unsupport char in sourse code `%c`:0x%x", ch, ch);
break;
}
goto once_char;
triple_char:
scc_probe_stream_consume(stream);
scc_pos_next(&lexer->pos);
double_char:
scc_probe_stream_consume(stream);
scc_pos_next(&lexer->pos);
once_char:
scc_probe_stream_consume(stream);
scc_pos_next(&lexer->pos);
token->type = type;
END:
LEX_DEBUG("get token `%s` in %s:%d:%d", scc_get_tok_name(token->type),
token->loc.name, token->loc.line, token->loc.column);
// 设置token
scc_ring_consume(lexer->stream_ref);
token->type = token->type; // 上面已设
token->loc = start_loc;
token->lexeme = lex; // 转移所有权
LEX_DEBUG("get token `%s` (%s) at %s:%d:%d", scc_get_tok_name(token->type),
scc_cstring_as_cstr(&token->lexeme), token->loc.name,
token->loc.line, token->loc.col);
}
// scc_lexer_get_token maybe got invalid (with parser)
void scc_lexer_get_valid_token(scc_lexer_t *lexer, scc_lexer_tok_t *token) {
scc_tok_subtype_t type;
scc_tok_subtype_t subtype;
do {
scc_lexer_get_token(lexer, token);
type = scc_get_tok_subtype(token->type);
AssertFmt(type != SCC_TOK_SUBTYPE_INVALID,
subtype = scc_get_tok_subtype(token->type);
AssertFmt(subtype != SCC_TOK_SUBTYPE_INVALID,
"Invalid token: `%s` at %s:%d:%d",
scc_get_tok_name(token->type), token->loc.name,
token->loc.line, token->loc.col);
Assert(type != SCC_TOK_SUBTYPE_INVALID);
} while (type == SCC_TOK_SUBTYPE_EMPTYSPACE ||
type == SCC_TOK_SUBTYPE_COMMENT);
} while (subtype == SCC_TOK_SUBTYPE_EMPTYSPACE ||
subtype == SCC_TOK_SUBTYPE_COMMENT);
}

66
libs/lexer/src/main.c Normal file
View File

@@ -0,0 +1,66 @@
#include <lexer.h>
#include <lexer_log.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
/// gcc -g ../lexer.c ../token.c test_lexer.c -o test_lexer
/*
tok_tConstant {
int have;
union {
char ch;
int i;
float f;
double d;
long long ll;
char* str;
};
};
*/
int g_num;
int g_num_arr[3];
int main(int argc, char *argv[]) {
// int num = 0;
if (argc == 3 && strcmp(argv[2], "--debug") == 0) {
log_set_level(NULL, LOG_LEVEL_ALL);
} else {
// FIXME it is a hack lexer_logger
log_set_level(&__scc_lexer_log, LOG_LEVEL_NOTSET);
log_set_level(NULL, LOG_LEVEL_INFO | LOG_LEVEL_WARN | LOG_LEVEL_ERROR |
LOG_LEVEL_FATAL);
}
const char *file_name = __FILE__;
if (argc == 2) {
file_name = argv[1];
}
scc_lexer_t lexer;
scc_sstream_t stream;
scc_sstream_init(&stream, file_name, 16);
scc_sstream_ring_t *ref = scc_sstream_ref_ring(&stream);
scc_lexer_init(&lexer, ref);
scc_lexer_tok_t token;
while (1) {
scc_lexer_get_valid_token(&lexer, &token);
if (token.type == SCC_TOK_EOF) {
break;
}
LOG_DEBUG("get token [%-8s] `%s` at %s:%d:%d",
scc_get_tok_name(token.type),
scc_cstring_as_cstr(&token.lexeme), token.loc.name,
token.loc.line, token.loc.col);
// LOG_DEBUG("%s", token.val.str);
// printf("line: %d, column: %d, type: %3d, typename: %s\n",
// lexer.line, lexer.index, token.type,
// scc_get_tok_name(token.type));
}
scc_sstream_drop_ring(ref);
scc_sstream_drop(&stream);
LOG_INFO("Lexer is Ok...");
return 0;
}

403
libs/lexer/tests/test_lexer.c Normal file
View File

@@ -0,0 +1,403 @@
// test_lexer.c
#include <lexer.h>
#include <string.h>
#include <utest/acutest.h>
// 辅助函数:释放 token 的 lexeme
static void free_token(scc_lexer_tok_t *tok) { scc_cstring_free(&tok->lexeme); }
// 单 token 测试宏(检查类型)
#define TEST_TOKEN(input, expected_type) \
do { \
scc_lexer_t lexer; \
scc_lexer_tok_t token; \
scc_sstream_t stream; \
scc_sstream_init_by_buffer(&stream, input, strlen(input), 0, 16); \
scc_sstream_ring_t *ref = scc_sstream_ref_ring(&stream); \
scc_lexer_init(&lexer, ref); \
scc_lexer_get_token(&lexer, &token); \
\
TEST_CHECK(token.type == expected_type); \
TEST_MSG("Input: '%s'", input); \
TEST_MSG("Expected: %s", scc_get_tok_name(expected_type)); \
TEST_MSG("Got: %s", scc_get_tok_name(token.type)); \
\
free_token(&token); \
scc_sstream_drop_ring(ref); \
scc_sstream_drop(&stream); \
} while (0)
// 多 token 序列测试宏(接受类型数组)
#define TEST_SEQUENCE(input, ...) \
do { \
scc_lexer_t lexer; \
scc_lexer_tok_t token; \
scc_sstream_t stream; \
scc_sstream_init_by_buffer(&stream, input, strlen(input), 0, 16); \
scc_sstream_ring_t *ref = scc_sstream_ref_ring(&stream); \
scc_lexer_init(&lexer, ref); \
\
scc_tok_type_t expected[] = {__VA_ARGS__}; \
size_t count = sizeof(expected) / sizeof(expected[0]); \
for (size_t i = 0; i < count; i++) { \
scc_lexer_get_token(&lexer, &token); \
TEST_CHECK(token.type == expected[i]); \
TEST_MSG("Token %zu: input '%s'", i, input); \
TEST_MSG("Expected: %s", scc_get_tok_name(expected[i])); \
TEST_MSG("Got: %s", scc_get_tok_name(token.type)); \
free_token(&token); \
} \
\
scc_sstream_drop_ring(ref); \
scc_sstream_drop(&stream); \
} while (0)
// ============================ 测试用例 ============================
void test_operators() {
TEST_CASE("Arithmetic operators");
TEST_TOKEN("+", SCC_TOK_ADD);
TEST_TOKEN("++", SCC_TOK_ADD_ADD);
TEST_TOKEN("+=", SCC_TOK_ASSIGN_ADD);
TEST_TOKEN("-", SCC_TOK_SUB);
TEST_TOKEN("--", SCC_TOK_SUB_SUB);
TEST_TOKEN("-=", SCC_TOK_ASSIGN_SUB);
TEST_TOKEN("*", SCC_TOK_MUL);
TEST_TOKEN("*=", SCC_TOK_ASSIGN_MUL);
TEST_TOKEN("/", SCC_TOK_DIV);
TEST_TOKEN("/=", SCC_TOK_ASSIGN_DIV);
TEST_TOKEN("%", SCC_TOK_MOD);
TEST_TOKEN("%=", SCC_TOK_ASSIGN_MOD);
TEST_CASE("Bitwise operators");
TEST_TOKEN("&", SCC_TOK_AND);
TEST_TOKEN("&&", SCC_TOK_AND_AND);
TEST_TOKEN("&=", SCC_TOK_ASSIGN_AND);
TEST_TOKEN("|", SCC_TOK_OR);
TEST_TOKEN("||", SCC_TOK_OR_OR);
TEST_TOKEN("|=", SCC_TOK_ASSIGN_OR);
TEST_TOKEN("^", SCC_TOK_XOR);
TEST_TOKEN("^=", SCC_TOK_ASSIGN_XOR);
TEST_TOKEN("~", SCC_TOK_BIT_NOT);
TEST_TOKEN("<<", SCC_TOK_L_SH);
TEST_TOKEN("<<=", SCC_TOK_ASSIGN_L_SH);
TEST_TOKEN(">>", SCC_TOK_R_SH);
TEST_TOKEN(">>=", SCC_TOK_ASSIGN_R_SH);
TEST_CASE("Comparison operators");
TEST_TOKEN("==", SCC_TOK_EQ);
TEST_TOKEN("!=", SCC_TOK_NEQ);
TEST_TOKEN("<", SCC_TOK_LT);
TEST_TOKEN("<=", SCC_TOK_LE);
TEST_TOKEN(">", SCC_TOK_GT);
TEST_TOKEN(">=", SCC_TOK_GE);
TEST_CASE("Special symbols");
TEST_TOKEN("(", SCC_TOK_L_PAREN);
TEST_TOKEN(")", SCC_TOK_R_PAREN);
TEST_TOKEN("[", SCC_TOK_L_BRACKET);
TEST_TOKEN("]", SCC_TOK_R_BRACKET);
TEST_TOKEN("{", SCC_TOK_L_BRACE);
TEST_TOKEN("}", SCC_TOK_R_BRACE);
TEST_TOKEN(";", SCC_TOK_SEMICOLON);
TEST_TOKEN(",", SCC_TOK_COMMA);
TEST_TOKEN(":", SCC_TOK_COLON);
TEST_TOKEN(".", SCC_TOK_DOT);
TEST_TOKEN("...", SCC_TOK_ELLIPSIS);
TEST_TOKEN("->", SCC_TOK_DEREF);
TEST_TOKEN("?", SCC_TOK_COND);
}
void test_keywords() {
TEST_CASE("C89 keywords");
TEST_TOKEN("while", SCC_TOK_WHILE);
TEST_TOKEN("sizeof", SCC_TOK_SIZEOF);
TEST_TOKEN("if", SCC_TOK_IF);
TEST_TOKEN("else", SCC_TOK_ELSE);
TEST_TOKEN("for", SCC_TOK_FOR);
TEST_TOKEN("do", SCC_TOK_DO);
TEST_TOKEN("switch", SCC_TOK_SWITCH);
TEST_TOKEN("case", SCC_TOK_CASE);
TEST_TOKEN("default", SCC_TOK_DEFAULT);
TEST_TOKEN("break", SCC_TOK_BREAK);
TEST_TOKEN("continue", SCC_TOK_CONTINUE);
TEST_TOKEN("return", SCC_TOK_RETURN);
TEST_TOKEN("goto", SCC_TOK_GOTO);
TEST_TOKEN("auto", SCC_TOK_AUTO);
TEST_TOKEN("register", SCC_TOK_REGISTER);
TEST_TOKEN("static", SCC_TOK_STATIC);
TEST_TOKEN("extern", SCC_TOK_EXTERN);
TEST_TOKEN("typedef", SCC_TOK_TYPEDEF);
TEST_TOKEN("const", SCC_TOK_CONST);
TEST_TOKEN("volatile", SCC_TOK_VOLATILE);
TEST_TOKEN("signed", SCC_TOK_SIGNED);
TEST_TOKEN("unsigned", SCC_TOK_UNSIGNED);
TEST_TOKEN("short", SCC_TOK_SHORT);
TEST_TOKEN("long", SCC_TOK_LONG);
TEST_TOKEN("int", SCC_TOK_INT);
TEST_TOKEN("char", SCC_TOK_CHAR);
TEST_TOKEN("float", SCC_TOK_FLOAT);
TEST_TOKEN("double", SCC_TOK_DOUBLE);
TEST_TOKEN("void", SCC_TOK_VOID);
TEST_TOKEN("struct", SCC_TOK_STRUCT);
TEST_TOKEN("union", SCC_TOK_UNION);
TEST_TOKEN("enum", SCC_TOK_ENUM);
TEST_CASE("C99 keywords");
TEST_TOKEN("inline", SCC_TOK_INLINE);
TEST_TOKEN("restrict", SCC_TOK_RESTRICT);
// _Bool, _Complex, _Imaginary 可根据需要添加
TEST_CASE("SCC extensions (if enabled)");
TEST_TOKEN("asm", SCC_TOK_ASM);
TEST_TOKEN("atomic", SCC_TOK_ATOMIC);
TEST_TOKEN("bool", SCC_TOK_BOOL);
TEST_TOKEN("complex", SCC_TOK_COMPLEX);
}
void test_literals() {
TEST_CASE("Integer literals - decimal");
TEST_TOKEN("0", SCC_TOK_INT_LITERAL);
TEST_TOKEN("123", SCC_TOK_INT_LITERAL);
TEST_TOKEN("2147483647", SCC_TOK_INT_LITERAL);
TEST_TOKEN("4294967295", SCC_TOK_INT_LITERAL);
TEST_CASE("Integer literals - hexadecimal");
TEST_TOKEN("0x0", SCC_TOK_INT_LITERAL);
TEST_TOKEN("0x1A3F", SCC_TOK_INT_LITERAL);
TEST_TOKEN("0XABCDEF", SCC_TOK_INT_LITERAL);
TEST_TOKEN("0x123abc", SCC_TOK_INT_LITERAL);
TEST_TOKEN("0XFF", SCC_TOK_INT_LITERAL);
TEST_CASE("Integer literals - octal");
TEST_TOKEN("0123", SCC_TOK_INT_LITERAL);
TEST_TOKEN("0777", SCC_TOK_INT_LITERAL);
TEST_TOKEN("0", SCC_TOK_INT_LITERAL); // 0 既是十进制也是八进制
TEST_CASE("Integer literals - binary (C23 extension)");
TEST_TOKEN("0b1010", SCC_TOK_INT_LITERAL);
TEST_TOKEN("0B1100", SCC_TOK_INT_LITERAL);
TEST_TOKEN("0b0", SCC_TOK_INT_LITERAL);
TEST_CASE("Integer literals with suffixes");
TEST_TOKEN("123U", SCC_TOK_INT_LITERAL);
TEST_TOKEN("456L", SCC_TOK_INT_LITERAL);
TEST_TOKEN("789UL", SCC_TOK_INT_LITERAL);
TEST_TOKEN("0x1FFLL", SCC_TOK_INT_LITERAL);
TEST_TOKEN("0b1010ULL", SCC_TOK_INT_LITERAL);
TEST_CASE("Floating literals - decimal");
TEST_TOKEN("0.0", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("3.14", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN(".5", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("0.", SCC_TOK_FLOAT_LITERAL);
TEST_CASE("Floating literals - scientific");
TEST_TOKEN("1e10", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("1E-5", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("2.5e+3", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN(".1e2", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("1.e3", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("123.456e-7", SCC_TOK_FLOAT_LITERAL);
TEST_CASE("Floating literals - hexadecimal (C99)");
TEST_TOKEN("0x1.2p3", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("0x1p-2", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("0x0.1p10", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("0X1.2P3", SCC_TOK_FLOAT_LITERAL);
TEST_CASE("Floating literals with suffixes");
TEST_TOKEN("1.0f", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("2.0F", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("3.0l", SCC_TOK_FLOAT_LITERAL);
TEST_TOKEN("4.0L", SCC_TOK_FLOAT_LITERAL);
TEST_CASE("Character literals - simple");
TEST_TOKEN("'a'", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("'0'", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("' '", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("'\t'", SCC_TOK_CHAR_LITERAL); // 制表符在单引号内
TEST_CASE("Character literals - escape sequences");
TEST_TOKEN("'\\n'", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("'\\t'", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("'\\\\'", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("'\\''", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("'\\\"'", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("'\\?'", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("'\\0'", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("'\\123'", SCC_TOK_CHAR_LITERAL); // 八进制
TEST_TOKEN("'\\xAB'", SCC_TOK_CHAR_LITERAL); // 十六进制
TEST_CASE("Character literals - multi-byte (implementation defined)");
TEST_TOKEN("'ab'", SCC_TOK_CHAR_LITERAL);
TEST_TOKEN("'\\x41\\x42'", SCC_TOK_CHAR_LITERAL); // 多个转义
TEST_CASE("String literals - basic");
TEST_TOKEN("\"hello\"", SCC_TOK_STRING_LITERAL);
TEST_TOKEN("\"\"", SCC_TOK_STRING_LITERAL);
TEST_TOKEN("\"a b c\"", SCC_TOK_STRING_LITERAL);
TEST_CASE("String literals - escape sequences");
TEST_TOKEN("\"a\\nb\\tc\"", SCC_TOK_STRING_LITERAL);
TEST_TOKEN("\"\\\\ \\\" \\' \\?\"", SCC_TOK_STRING_LITERAL);
TEST_TOKEN("\"\\123\\xAB\"", SCC_TOK_STRING_LITERAL);
TEST_CASE("String literals - wide and UTF-8 prefixes (C11)");
TEST_TOKEN("L\"wide\"", SCC_TOK_STRING_LITERAL);
TEST_TOKEN("u\"utf16\"", SCC_TOK_STRING_LITERAL);
TEST_TOKEN("U\"utf32\"", SCC_TOK_STRING_LITERAL);
TEST_TOKEN("u8\"utf8\"", SCC_TOK_STRING_LITERAL);
}
void test_whitespace() {
TEST_CASE("Whitespace characters");
TEST_TOKEN(" ", SCC_TOK_BLANK);
TEST_TOKEN("\t", SCC_TOK_BLANK);
TEST_TOKEN("\v", SCC_TOK_BLANK);
TEST_TOKEN("\f", SCC_TOK_BLANK);
TEST_TOKEN(" \t\v\f", SCC_TOK_BLANK); // 连续空白应为一个 token
}
void test_newlines() {
TEST_CASE("Newline characters");
TEST_TOKEN("\n", SCC_TOK_ENDLINE);
TEST_TOKEN("\r", SCC_TOK_ENDLINE);
TEST_TOKEN("\r\n", SCC_TOK_ENDLINE); // 应视为单个换行符
}
void test_comments() {
TEST_CASE("Line comments");
TEST_TOKEN("// single line comment", SCC_TOK_LINE_COMMENT);
TEST_TOKEN("// comment with // inside", SCC_TOK_LINE_COMMENT);
TEST_TOKEN("// comment at end", SCC_TOK_LINE_COMMENT);
TEST_CASE("Block comments");
TEST_TOKEN("/* simple */", SCC_TOK_BLOCK_COMMENT);
TEST_TOKEN("/* multi\nline */", SCC_TOK_BLOCK_COMMENT);
TEST_TOKEN("/**/", SCC_TOK_BLOCK_COMMENT); // 空注释
TEST_TOKEN("/* with * inside */", SCC_TOK_BLOCK_COMMENT);
TEST_TOKEN("/* nested /* not allowed in C */",
SCC_TOK_BLOCK_COMMENT); // 词法上不会嵌套
}
void test_identifiers() {
TEST_CASE("Valid identifiers");
TEST_TOKEN("foo", SCC_TOK_IDENT);
TEST_TOKEN("_foo", SCC_TOK_IDENT);
TEST_TOKEN("foo123", SCC_TOK_IDENT);
TEST_TOKEN("foo_bar", SCC_TOK_IDENT);
TEST_TOKEN("FOO", SCC_TOK_IDENT);
TEST_TOKEN("_", SCC_TOK_IDENT);
TEST_TOKEN("__LINE__", SCC_TOK_IDENT); // 预处理宏名也是标识符
// 超长标识符(假设缓冲区足够)
char long_id[1024];
memset(long_id, 'a', sizeof(long_id) - 1);
long_id[sizeof(long_id) - 1] = '\0';
TEST_TOKEN(long_id, SCC_TOK_IDENT);
}
void test_preprocessor() {
TEST_CASE("Preprocessor directives - just the # token");
TEST_TOKEN("#", SCC_TOK_SHARP);
TEST_TOKEN("##", SCC_TOK_SHARP); // 第一个 # 是 token第二个 # 将是下一个
// token在序列测试中验证
// 多 token 序列测试 #include 等
TEST_SEQUENCE("#include <stdio.h>", SCC_TOK_SHARP, SCC_TOK_IDENT,
SCC_TOK_BLANK, SCC_TOK_LT, SCC_TOK_IDENT, SCC_TOK_DOT,
SCC_TOK_IDENT, SCC_TOK_GT);
TEST_SEQUENCE("#define FOO 123", SCC_TOK_SHARP, SCC_TOK_IDENT,
SCC_TOK_BLANK, SCC_TOK_IDENT, SCC_TOK_BLANK,
SCC_TOK_INT_LITERAL);
}
void test_edge_cases() {
TEST_CASE("Invalid characters");
TEST_TOKEN("@", SCC_TOK_UNKNOWN);
TEST_TOKEN("`", SCC_TOK_UNKNOWN);
TEST_TOKEN("$", SCC_TOK_UNKNOWN); // 在 C 中不是标识符字符
TEST_CASE("Empty input");
TEST_TOKEN("", SCC_TOK_EOF); // 立即 EOF
TEST_CASE("Only whitespace");
TEST_TOKEN(" \t", SCC_TOK_BLANK);
// 之后应该为 EOF但我们的单 token 测试只取第一个 token
TEST_CASE("Numbers followed by letters (no suffix)");
// 词法上应拆分为数字和标识符
TEST_SEQUENCE("123abc", SCC_TOK_INT_LITERAL, SCC_TOK_IDENT);
TEST_SEQUENCE("0x123xyz", SCC_TOK_INT_LITERAL, SCC_TOK_IDENT);
}
void test_sequences() {
TEST_CASE("Simple expression");
TEST_SEQUENCE("a + b * c", SCC_TOK_IDENT, SCC_TOK_BLANK, SCC_TOK_ADD,
SCC_TOK_BLANK, SCC_TOK_IDENT, SCC_TOK_BLANK, SCC_TOK_MUL,
SCC_TOK_BLANK, SCC_TOK_IDENT);
TEST_CASE("Function call");
TEST_SEQUENCE("func(1, 2);", SCC_TOK_IDENT, SCC_TOK_L_PAREN,
SCC_TOK_INT_LITERAL, SCC_TOK_COMMA, SCC_TOK_BLANK,
SCC_TOK_INT_LITERAL, SCC_TOK_R_PAREN, SCC_TOK_SEMICOLON);
TEST_CASE("Multi-character operators");
TEST_SEQUENCE(">>=", SCC_TOK_ASSIGN_R_SH);
TEST_SEQUENCE("<<=", SCC_TOK_ASSIGN_L_SH);
TEST_SEQUENCE("...", SCC_TOK_ELLIPSIS);
TEST_SEQUENCE("->", SCC_TOK_DEREF);
TEST_SEQUENCE("##", SCC_TOK_SHARP, SCC_TOK_SHARP); // 两个预处理记号
TEST_CASE("Comments and whitespace interleaved");
TEST_SEQUENCE("/* comment */ a // line comment\n b", SCC_TOK_BLOCK_COMMENT,
SCC_TOK_BLANK, SCC_TOK_IDENT, SCC_TOK_BLANK,
SCC_TOK_LINE_COMMENT, SCC_TOK_ENDLINE, SCC_TOK_BLANK,
SCC_TOK_IDENT);
TEST_CASE("String literals with escapes");
TEST_SEQUENCE("\"hello\\nworld\"", SCC_TOK_STRING_LITERAL);
TEST_SEQUENCE(
"L\"wide\"",
SCC_TOK_STRING_LITERAL); // 前缀作为标识符?不,整个是字符串字面量
TEST_CASE("Character literals with escapes");
TEST_SEQUENCE("'\\x41'", SCC_TOK_CHAR_LITERAL);
TEST_SEQUENCE("'\\123'", SCC_TOK_CHAR_LITERAL);
}
void test_error_recovery() {
// 测试未闭合的字符字面量:词法分析器可能继续直到遇到换行或 EOF
// 这里假设它会产生一个 SCC_TOK_CHAR_LITERAL 但包含到结束
// 但标准 C 中未闭合是错误,我们可能返回 UNKNOWN
TEST_CASE("Unterminated character literal");
TEST_TOKEN("'a", SCC_TOK_UNKNOWN); // 取决于实现,可能为 CHAR_LITERAL
// 更可靠的测试:序列中下一个 token 是什么
TEST_SEQUENCE("'a b", SCC_TOK_UNKNOWN,
SCC_TOK_IDENT); // 假设第一个 token 是错误
TEST_CASE("Unterminated string literal");
TEST_TOKEN("\"hello", SCC_TOK_UNKNOWN); // 同样
TEST_CASE("Unterminated block comment");
TEST_SEQUENCE("/* comment",
SCC_TOK_BLOCK_COMMENT); // 直到 EOF可能仍为注释
}
// ============================ 主测试列表 ============================
TEST_LIST = {
{"operators", test_operators},
{"keywords", test_keywords},
{"literals", test_literals},
{"whitespace", test_whitespace},
{"newlines", test_newlines},
{"comments", test_comments},
{"identifiers", test_identifiers},
{"preprocessor", test_preprocessor},
{"edge_cases", test_edge_cases},
{"sequences", test_sequences},
{"error_recovery", test_error_recovery},
{NULL, NULL},
};

170
libs/lexer/tests/test_parse.c
View File

@@ -1,170 +0,0 @@
// test_lexer.c
#include <lexer.h>
#include <string.h>
#include <utest/acutest.h>
// 测试辅助函数
static inline void test_lexer_string(const char *input,
scc_tok_type_t expected_type) {
scc_lexer_t lexer;
scc_lexer_tok_t token;
scc_mem_probe_stream_t stream;
scc_lexer_init(&lexer, scc_mem_probe_stream_init(&stream, input,
strlen(input), false));
scc_lexer_get_token(&lexer, &token);
TEST_CHECK(token.type == expected_type);
TEST_MSG("Expected: %s", scc_get_tok_name(expected_type));
TEST_MSG("Got: %s", scc_get_tok_name(token.type));
}
// 基础运算符测试
void test_operators() {
TEST_CASE("Arithmetic operators");
{
test_lexer_string("+", SCC_TOK_ADD);
test_lexer_string("++", SCC_TOK_ADD_ADD);
test_lexer_string("+=", SCC_TOK_ASSIGN_ADD);
test_lexer_string("-", SCC_TOK_SUB);
test_lexer_string("--", SCC_TOK_SUB_SUB);
test_lexer_string("-=", SCC_TOK_ASSIGN_SUB);
test_lexer_string("*", SCC_TOK_MUL);
test_lexer_string("*=", SCC_TOK_ASSIGN_MUL);
test_lexer_string("/", SCC_TOK_DIV);
test_lexer_string("/=", SCC_TOK_ASSIGN_DIV);
test_lexer_string("%", SCC_TOK_MOD);
test_lexer_string("%=", SCC_TOK_ASSIGN_MOD);
}
TEST_CASE("Bitwise operators");
{
test_lexer_string("&", SCC_TOK_AND);
test_lexer_string("&&", SCC_TOK_AND_AND);
test_lexer_string("&=", SCC_TOK_ASSIGN_AND);
test_lexer_string("|", SCC_TOK_OR);
test_lexer_string("||", SCC_TOK_OR_OR);
test_lexer_string("|=", SCC_TOK_ASSIGN_OR);
test_lexer_string("^", SCC_TOK_XOR);
test_lexer_string("^=", SCC_TOK_ASSIGN_XOR);
test_lexer_string("~", SCC_TOK_BIT_NOT);
test_lexer_string("<<", SCC_TOK_L_SH);
test_lexer_string("<<=", SCC_TOK_ASSIGN_L_SH);
test_lexer_string(">>", SCC_TOK_R_SH);
test_lexer_string(">>=", SCC_TOK_ASSIGN_R_SH);
}
TEST_CASE("Comparison operators");
{
test_lexer_string("==", SCC_TOK_EQ);
test_lexer_string("!=", SCC_TOK_NEQ);
test_lexer_string("<", SCC_TOK_LT);
test_lexer_string("<=", SCC_TOK_LE);
test_lexer_string(">", SCC_TOK_GT);
test_lexer_string(">=", SCC_TOK_GE);
}
TEST_CASE("Special symbols");
{
test_lexer_string("(", SCC_TOK_L_PAREN);
test_lexer_string(")", SCC_TOK_R_PAREN);
test_lexer_string("[", SCC_TOK_L_BRACKET);
test_lexer_string("]", SCC_TOK_R_BRACKET);
test_lexer_string("{", SCC_TOK_L_BRACE);
test_lexer_string("}", SCC_TOK_R_BRACE);
test_lexer_string(";", SCC_TOK_SEMICOLON);
test_lexer_string(",", SCC_TOK_COMMA);
test_lexer_string(":", SCC_TOK_COLON);
test_lexer_string(".", SCC_TOK_DOT);
test_lexer_string("...", SCC_TOK_ELLIPSIS);
test_lexer_string("->", SCC_TOK_DEREF);
test_lexer_string("?", SCC_TOK_COND);
}
}
// 关键字测试
void test_keywords() {
TEST_CASE("C89 keywords");
test_lexer_string("while", SCC_TOK_WHILE);
test_lexer_string("sizeof", SCC_TOK_SIZEOF);
TEST_CASE("C99 keywords");
test_lexer_string("restrict", SCC_TOK_RESTRICT);
// test_lexer_string("_Bool", SCC_TOK_INT); // 需确认你的类型定义
}
// 字面量测试
void test_literals() {
TEST_CASE("Integer literals");
{
// 十进制
test_lexer_string("0", SCC_TOK_INT_LITERAL);
test_lexer_string("123", SCC_TOK_INT_LITERAL);
test_lexer_string("2147483647", SCC_TOK_INT_LITERAL);
// 十六进制
test_lexer_string("0x0", SCC_TOK_INT_LITERAL);
test_lexer_string("0x1A3F", SCC_TOK_INT_LITERAL);
test_lexer_string("0XABCDEF", SCC_TOK_INT_LITERAL);
// 八进制
test_lexer_string("0123", SCC_TOK_INT_LITERAL);
test_lexer_string("0777", SCC_TOK_INT_LITERAL);
// 边界值测试
test_lexer_string("2147483647", SCC_TOK_INT_LITERAL); // INT_MAX
test_lexer_string("4294967295", SCC_TOK_INT_LITERAL); // UINT_MAX
}
TEST_CASE("Character literals");
{
test_lexer_string("'a'", SCC_TOK_CHAR_LITERAL);
test_lexer_string("'\\n'", SCC_TOK_CHAR_LITERAL);
test_lexer_string("'\\t'", SCC_TOK_CHAR_LITERAL);
test_lexer_string("'\\\\'", SCC_TOK_CHAR_LITERAL);
test_lexer_string("'\\0'", SCC_TOK_CHAR_LITERAL);
}
TEST_CASE("String literals");
{
test_lexer_string("\"hello\"", SCC_TOK_STRING_LITERAL);
test_lexer_string("\"multi-line\\nstring\"", SCC_TOK_STRING_LITERAL);
test_lexer_string("\"escape\\\"quote\"", SCC_TOK_STRING_LITERAL);
}
// TEST_CASE("Floating literals");
// test_lexer_string("3.14e-5", SCC_TOK_FLOAT_LITERAL);
}
// 边界测试
void test_edge_cases() {
// TEST_CASE("Long identifiers");
// char long_id[LEXER_MAX_ SCC_TOK_SIZE+2] = {0};
// memset(long_id, 'a', LEXER_MAX_ SCC_TOK_SIZE+1);
// test_lexer_string(long_id, SCC_TOK_IDENT);
// TEST_CASE("Buffer boundary");
// char boundary[LEXER_BUFFER_SIZE*2] = {0};
// memset(boundary, '+', LEXER_BUFFER_SIZE*2-1);
// test_lexer_string(boundary, SCC_TOK_ADD);
}
// 错误处理测试
// void test_error_handling() {
// TEST_CASE("Invalid characters");
// cc_lexer_t lexer;
// tok_t token;
// init_lexer(&lexer, "test.c", NULL, test_read);
// get_valid_token(&lexer, &token);
// TEST_CHECK(token.type == SCC_TOK_EOF); // 应触发错误处理
// }
// 测试列表
TEST_LIST = {{"operators", test_operators},
{"keywords", test_keywords},
{"literals", test_literals},
{"edge_cases", test_edge_cases},
// {"error_handling", test_error_handling},
{NULL, NULL}};

93
libs/lexer/tests/test_run.c
View File

@@ -1,93 +0,0 @@
#include <lexer.h>
#include <lexer_log.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
/// gcc -g ../lexer.c ../token.c test_lexer.c -o test_lexer
/*
tok_tConstant {
int have;
union {
char ch;
int i;
float f;
double d;
long long ll;
char* str;
};
};
*/
int g_num;
int g_num_arr[3];
int main(int argc, char *argv[]) {
// int num = 0;
if (argc == 3 && strcmp(argv[2], "--debug") == 0) {
log_set_level(NULL, LOG_LEVEL_ALL);
} else {
// FIXME it is a hack lexer_logger
log_set_level(&__scc_lexer_log, LOG_LEVEL_NOTSET);
log_set_level(NULL, LOG_LEVEL_INFO | LOG_LEVEL_WARN | LOG_LEVEL_ERROR |
LOG_LEVEL_FATAL);
}
const char *file_name = __FILE__;
if (argc == 2) {
file_name = argv[1];
}
FILE *fp = fopen(file_name, "rb");
if (fp == NULL) {
perror("open file failed");
return 1;
}
if (fseek(fp, 0, SEEK_END) != 0) {
perror("fseek failed");
return 1;
}
usize fsize = ftell(fp);
LOG_INFO("file size: %zu", fsize);
if (fseek(fp, 0, SEEK_SET)) {
perror("fseek failed");
return 1;
}
char *buffer = (char *)malloc(fsize);
usize read_ret = fread(buffer, 1, fsize, fp);
fclose(fp);
if (read_ret != fsize) {
LOG_FATAL("fread failed read_ret %u != fsize %u", read_ret, fsize);
free(buffer);
return 1;
}
scc_lexer_t lexer;
scc_mem_probe_stream_t mem_stream = {0};
scc_probe_stream_t *stream =
scc_mem_probe_stream_init(&mem_stream, buffer, fsize, false);
Assert(stream != null);
scc_cstring_clear(&stream->name);
scc_cstring_append_cstr(&stream->name, file_name, strlen(file_name));
scc_lexer_init(&lexer, stream);
scc_lexer_tok_t tok;
while (1) {
scc_lexer_get_valid_token(&lexer, &tok);
if (tok.type == SCC_TOK_EOF) {
break;
}
LOG_DEBUG("token `%s` at %s:%u:%u", scc_get_tok_name(tok.type),
scc_cstring_as_cstr(&tok.loc.name), tok.loc.line,
tok.loc.col);
Assert(tok.loc.offset <= fsize);
// LOG_DEBUG("%s", tok.val.str);
// printf("line: %d, column: %d, type: %3d, typename: %s\n",
// lexer.line, lexer.index, tok.type, scc_get_tok_name(tok.type));
}
free(buffer);
LOG_INFO("Lexer is Ok...");
return 0;
}

6
libs/lex_parser/cbuild.toml → libs/sstream/cbuild.toml
View File

@@ -1,5 +1,9 @@
[package]
name = "scc_lex_parser"
name = "sstream"
version = "0.1.0"
authors = []
description = ""
dependencies = [{ name = "scc_core", path = "../../runtime/scc_core" }]
# features = {}
# default_features = []

32
libs/sstream/include/scc_pos.h Normal file
View File

@@ -0,0 +1,32 @@
#ifndef __SCC_POS_H__
#define __SCC_POS_H__
#include <scc_core_str.h>
#include <scc_core_type.h>
typedef struct scc_pos {
const char *name;
usize line;
usize col;
usize offset;
} scc_pos_t;
static inline scc_pos_t scc_pos_create() { return (scc_pos_t){0, 1, 1, 0}; }
static inline void scc_pos_next(scc_pos_t *pos) {
pos->offset++;
pos->col++;
}
static inline void scc_pos_next_offset(scc_pos_t *pos, int offset) {
pos->offset += offset;
pos->offset += offset;
}
static inline void scc_pos_next_line(scc_pos_t *pos) {
pos->offset++;
pos->line++;
pos->col = 1;
}
#endif /* __SCC_POS_H__ */

33
libs/sstream/include/scc_sstream.h Normal file
View File

@@ -0,0 +1,33 @@
#ifndef __SCC_SSTREAM_H__
#define __SCC_SSTREAM_H__
#include "scc_pos.h"
#include <scc_core.h>
#include <scc_core_ring.h>
typedef struct {
scc_pos_t pos;
int character;
} scc_sstream_char_t;
typedef SCC_RING(scc_sstream_char_t) scc_sstream_ring_t;
typedef struct {
const char *fname;
scc_pos_t pos; // 当前消费位置 (可选,可由 ring 推导)
int used; // 是否仍然在使用
int owned_src; // 是否拥有src内存 即是否需要释放
const char *src; // 文件内容缓冲区 (由 sstream 管理)
usize len; // 缓冲区长度
scc_pos_t fill_pos; // 内部填充位置
scc_sstream_ring_t ring;
} scc_sstream_t;
int scc_sstream_init(scc_sstream_t *stream, const char *fname, int ring_size);
int scc_sstream_init_by_buffer(scc_sstream_t *stream, const char *buffer,
usize len, int owned, int ring_size);
scc_sstream_ring_t *scc_sstream_ref_ring(scc_sstream_t *stream);
void scc_sstream_drop_ring(scc_sstream_ring_t *ring);
void scc_sstream_drop(scc_sstream_t *stream);
#endif /* __SCC_SSTREAM_H__ */

51
libs/sstream/src/main.c Normal file
View File

@@ -0,0 +1,51 @@
#include "scc_sstream.h"
#include <stdio.h>
int main(int argc, char **argv) {
const char *filename = (argc > 1) ? argv[1] : __FILE__; // 默认读取自身
scc_sstream_t stream;
scc_sstream_ring_t *ring;
// 初始化
if (scc_sstream_init(&stream, filename, 16) != 0) {
fprintf(stderr, "Failed to initialize stream for %s\n", filename);
return 1;
}
ring = scc_sstream_ref_ring(&stream);
Assert(ring != null);
printf("Reading file: %s\n", filename);
scc_sstream_char_t elem;
cbool ok;
int char_count = 0;
int line_count = 0;
// 循环读取所有字符
while (1) {
scc_ring_next_consume(*ring, elem, ok);
if (!ok)
break; // 文件结束或错误
char_count++;
if (elem.character == '\n')
line_count++;
// 打印前 200 个字符的位置信息(避免刷屏)
if (char_count <= 200) {
printf("char[%d]: '%c' (line %zu, col %zu)\n", char_count,
elem.character == '\n' ? ' '
: elem.character, // 换行符显示为空格
elem.pos.line, elem.pos.col);
}
}
printf("\nSummary:\n");
printf(" Total characters: %d\n", char_count);
printf(" Total lines: %d\n", line_count);
// 释放资源
scc_sstream_drop_ring(ring);
scc_sstream_drop(&stream);
return 0;
}

145
libs/sstream/src/scc_sstream.c Normal file
View File

@@ -0,0 +1,145 @@
#include <scc_sstream.h>
// 内部扫描函数:从指定位置扫描下一个有效字符
static int sstream_scan_at(scc_sstream_t *stream, scc_pos_t scan_pos,
scc_pos_t *out_char_pos, scc_pos_t *out_next_pos) {
while (1) {
if (scan_pos.offset >= stream->len)
return -1; // EOF
scc_pos_t start = scan_pos;
char c = stream->src[scan_pos.offset];
// 处理反斜杠换行
if (c == '\\') {
usize next_off = scan_pos.offset + 1;
if (next_off < stream->len) {
char n = stream->src[next_off];
if (n == '\n') {
// 跳过 '\' 和 '\n'
scan_pos.offset += 2;
scan_pos.line++;
scan_pos.col = 1;
continue;
} else if (n == '\r' && next_off + 1 < stream->len &&
stream->src[next_off + 1] == '\n') {
// 跳过 '\' + '\r' + '\n'
scan_pos.offset += 3;
scan_pos.line++;
scan_pos.col = 1;
continue;
}
}
}
// 处理 \r\n 转换为 \n
if (c == '\r') {
usize next_off = scan_pos.offset + 1;
if (next_off < stream->len && stream->src[next_off] == '\n') {
if (out_char_pos)
*out_char_pos = start;
// 下一个位置:偏移+2行+1列=1
scan_pos.offset += 2;
scan_pos.line++;
scan_pos.col = 1;
if (out_next_pos)
*out_next_pos = scan_pos;
return '\n';
}
}
// 普通字符(包括单独的 '\n'、'\r' 等)
if (out_char_pos)
*out_char_pos = start;
// 计算下一个位置
scan_pos.offset++;
if (c == '\n') {
scan_pos.line++;
scan_pos.col = 1;
} else {
scan_pos.col++;
}
if (out_next_pos)
*out_next_pos = scan_pos;
return c;
}
}
// 环形缓冲区填充回调(通过 userdata 获取流对象)
static cbool fill_func(scc_sstream_char_t *out, void *userdata) {
scc_sstream_t *stream = (scc_sstream_t *)userdata;
if (stream->fill_pos.offset >= stream->len)
return false; // 已到文件尾
int ch = sstream_scan_at(stream, stream->fill_pos, &out->pos,
&(stream->fill_pos));
if (ch == -1)
return false;
out->character = ch;
return true;
}
int scc_sstream_init(scc_sstream_t *stream, const char *fname, int ring_size) {
Assert(stream != null && fname != null);
scc_file_t file = scc_fopen(fname, SCC_FILE_READ);
usize fsize = scc_fsize(file);
if (fsize == 0) {
LOG_WARN("file size is 0");
scc_fclose(file);
return 0;
}
char *buffer = (char *)scc_malloc(fsize);
scc_memset(buffer, 0, fsize);
usize read_ret = scc_fread(file, buffer, fsize);
Assert(read_ret == fsize); /* read bytes assert it */
scc_fclose(file);
scc_sstream_init_by_buffer(stream, buffer, read_ret, 1, ring_size);
stream->fname = fname;
stream->fill_pos.name = stream->fname;
return 0;
}
int scc_sstream_init_by_buffer(scc_sstream_t *stream, const char *buffer,
usize len, int owned, int ring_size) {
stream->fname = "<buffer>";
stream->fill_pos = scc_pos_create();
stream->fill_pos.name = stream->fname;
stream->src = buffer;
stream->len = len;
stream->owned_src = owned;
scc_ring_init(stream->ring, ring_size <= 0 ? 64 : ring_size, fill_func,
stream);
stream->used = 0;
return 0;
}
scc_sstream_ring_t *scc_sstream_ref_ring(scc_sstream_t *stream) {
Assert(stream != null);
stream->used++;
return &stream->ring;
}
void scc_sstream_drop_ring(scc_sstream_ring_t *ring) {
Assert(ring != null && ring->userdata != null);
scc_sstream_t *stream = (scc_sstream_t *)ring->userdata;
if (stream->used > 0) {
stream->used--;
} else {
LOG_WARN("double drop sstream ring");
}
}
void scc_sstream_drop(scc_sstream_t *stream) {
Assert(stream != null);
if (stream->used) {
LOG_FATAL("drop sstream must be drop ring before ref [%d]",
stream->used);
}
if (stream->src && stream->owned_src) {
scc_free((void *)stream->src);
stream->src = null;
}
scc_ring_free(stream->ring);
}

140
runtime/runtime_gdb.py
View File

@@ -157,40 +157,128 @@ class VectorPrinter(gdb.ValuePrinter):
class HashTablePrinter(gdb.ValuePrinter):
def __init__(self, val: gdb.Value):
self.val: gdb.Value = val
"""打印 scc_hashtable_t 结构"""
def __init__(self, val):
self.val = val
@staticmethod
def check_type(val: gdb.Value) -> bool:
if val.type.name in ["scc_hashtable_t", "scc_hashtable"]:
def check_type(val):
# 通过类型名或关键字段检查
type_name = val.type.name
if type_name and type_name in ("scc_hashtable_t", "scc_hashtable"):
return True
try:
fields = {f.name for f in val.type.fields()}
required = {"entries", "count", "tombstone_count", "hash_func", "key_cmp"}
if required.issubset(fields):
return True
except:
pass
return False
def to_string(self):
count = self.val["count"]
tombstone = self.val["tombstone_count"]
cap = self.val["entries"]["size"] # 总槽位数
return f"hashtable(count={count}, tombstone={tombstone}, capacity={cap})"
def append_printer():
"注册方式一传统append方法您之前有效的方式self"
gdb.pretty_printers.append(
lambda val: VectorPrinter(val) if VectorPrinter.check_type(val) else None
)
def display_hint(self):
return "map"
def num_children(self):
return int(self.val["count"])
def children(self):
entries = self.val["entries"]
size = int(entries["size"])
data = entries["data"]
if size == 0 or data == 0:
return
# ENTRY_ACTIVE = 1根据枚举定义
for i in range(size):
entry = data[i]
state = int(entry["state"])
if state == 1: # 只输出有效条目
yield (f"[{i}]", entry)
def register_new_printer():
"注册方式二:新版注册方法(备用方案)"
class StrPoolPrinter(gdb.ValuePrinter):
"""打印 scc_strpool_t将键值作为字符串展示"""
def str_lookup_function(val):
if VectorPrinter.check_type(val) is False:
return None
ret = VectorPrinter(val)
# print(
# f"ret {ret}, type {val.type.name}, {[(i.name, i.type) for i in val.type.fields()]}"
# )
return ret
def __init__(self, val):
self.val = val
self.ht = val["ht"] # 内部哈希表
gdb.printing.register_pretty_printer(gdb.current_objfile(), str_lookup_function)
# if gdb.current_progspace() is not None:
# pts = gdb.current_progspace().pretty_printers
# print(pts, len(pts))
# pts.append(str_lookup_function)
@staticmethod
def check_type(val):
type_name = val.type.name
if type_name and type_name == "scc_strpool_t":
return True
try:
fields = {f.name for f in val.type.fields()}
if "ht" in fields:
# 可进一步检查 ht 的类型,但非必须
return True
except:
pass
return False
def to_string(self):
count = self.ht["count"]
cap = self.ht["entries"]["size"]
return f"strpool(count={count}, capacity={cap})"
def display_hint(self):
return "map"
def num_children(self):
return int(self.ht["count"])
def children(self):
entries = self.ht["entries"]
size = int(entries["size"])
data = entries["data"]
if size == 0 or data == 0:
return
const_char_ptr = gdb.lookup_type("const char").pointer()
char_ptr = gdb.lookup_type("char").pointer()
for i in range(size):
entry = data[i]
state = int(entry["state"])
if state == 1: # ACTIVE
key_val = entry["key"]
value_val = entry["value"]
# 尝试将 void* 转为字符串
try:
key_str = key_val.cast(const_char_ptr).string()
except:
key_str = str(key_val) # 失败则回退到地址
try:
value_str = value_val.cast(char_ptr).string()
except:
value_str = str(value_val)
# 使用带引号的字符串作为名称,值直接是字符串
yield (repr(key_str), value_str)
def register_pretty_printers():
"""统一的查找函数,注册所有打印机"""
def lookup_function(val):
if VectorPrinter.check_type(val):
return VectorPrinter(val)
if HashTablePrinter.check_type(val):
return HashTablePrinter(val)
if StrPoolPrinter.check_type(val):
return StrPoolPrinter(val)
return None
gdb.printing.register_pretty_printer(gdb.current_objfile(), lookup_function)
class VectorInfoCommand(gdb.Command):
@@ -216,7 +304,5 @@ class VectorInfoCommand(gdb.Command):
if __name__ == "__main__":
# 双重注册保证兼容性
# append_printer() # 保留您原来有效的方式
register_new_printer() # 添加新版注册
register_pretty_printers()
VectorInfoCommand()

2
runtime/scc_core/include/scc_core.h
View File

@@ -6,9 +6,7 @@
#include <scc_core_impl.h>
#include <scc_core_macro.h>
#include <scc_core_mem.h>
#include <scc_core_pos.h>
#include <scc_core_str.h>
#include <scc_core_stream.h>
#include <scc_core_vec.h>
#endif // __SCC_CORE_H__

1
runtime/scc_core/include/scc_core_impl.h
View File

@@ -18,6 +18,7 @@ typedef enum {
scc_file_t scc_fopen(const char *path, scc_fmode_t mode);
void scc_fclose(scc_file_t file);
usize scc_fsize(scc_file_t file);
usize scc_fread(scc_file_t file, void *buffer, usize size);
usize scc_fwrite(scc_file_t file, const void *buffer, usize size);
cbool scc_fexists(const char *path);

28
runtime/scc_core/include/scc_core_pos.h
View File

@@ -1,28 +0,0 @@
#ifndef __SCC_CORE_POS_H__
#define __SCC_CORE_POS_H__
#include "scc_core_str.h"
#include "scc_core_type.h"
typedef struct scc_pos {
scc_cstring_t name;
usize line;
usize col;
usize offset;
} scc_pos_t;
static inline scc_pos_t scc_pos_create() {
return (scc_pos_t){scc_cstring_create(), 1, 1, 0};
}
static inline void scc_pos_next(scc_pos_t *pos) {
pos->offset++;
pos->col++;
}
static inline void scc_pos_next_line(scc_pos_t *pos) {
pos->offset++;
pos->line++;
pos->col = 1;
}
#endif /* __SCC_CORE_POS_H__ */

178
runtime/scc_core/include/scc_core_ring.h Normal file
View File

@@ -0,0 +1,178 @@
#ifndef __SCC_CORE_RING_H__
#define __SCC_CORE_RING_H__
#include <scc_core.h>
/**
* @def SCC_RING(type)
* @brief 声明环形缓冲区结构体
* @param type 存储的元素类型
*
* 生成包含以下字段的结构体:
* - data: 元素数组
* - cap: 容量
* - head: 已消费的逻辑索引
* - probe: 预览索引
* - tail: 已填充的逻辑末尾索引
* - fill: 填充回调函数 (当需要新元素时调用)
*/
#define SCC_RING(type) \
struct { \
type *data; \
usize cap; \
usize head; \
usize probe; \
usize tail; \
cbool (*fill)(type * out, void *userdata); \
void *userdata; \
}
// ==================== 内部辅助宏 (不直接使用) ====================
#define scc_ring_phys(ring, idx) ((idx) % (ring).cap)
/**
* @brief 确保 probe 位置有数据可用 (尝试填充)
* @param ring 环形缓冲区变量
* @param ok 变量名 (如 int ok_flag) ,宏会将其设置为 true 或 false
*/
#define scc_ring_ensure(ring, ok) \
do { \
ok = 1; \
if ((ring).probe < (ring).tail) \
break; \
/* probe == tail需要填充新元素 */ \
if (!(ring).fill) { \
ok = 0; \
break; \
} \
if ((ring).tail - (ring).head >= (ring).cap) { \
ok = 0; /* 缓冲区满,无法填充 */ \
break; \
} \
usize phys_tail = scc_ring_phys(ring, (ring).tail); \
if (!(ring).fill(&(ring).data[phys_tail], (ring).userdata)) { \
ok = 0; \
break; \
} \
(ring).tail++; \
} while (0)
// ==================== 用户操作宏 ====================
/**
* @brief 初始化环形缓冲区
* @param ring 环形缓冲区变量
* @param cap 容量
* @param fill_func 填充回调函数 (可传 NULL)
*
* 内存分配失败由 scc_malloc 内部处理 (如 LOG_FATAL)
*/
#define scc_ring_init(ring, _cap, fill_func, _userdata) \
do { \
(ring).data = scc_malloc((_cap) * sizeof(*(ring).data)); \
(ring).cap = (_cap); \
(ring).head = 0; \
(ring).probe = 0; \
(ring).tail = 0; \
(ring).fill = (fill_func); \
(ring).userdata = (_userdata); \
} while (0)
/**
* @brief 释放环形缓冲区内存
* @param ring 环形缓冲区变量
*/
#define scc_ring_free(ring) \
do { \
scc_free((ring).data); \
(ring).data = NULL; \
(ring).cap = (ring).head = (ring).probe = (ring).tail = 0; \
} while (0)
/**
* @brief 预览 probe 位置的元素 (不移动 probe)
* @param ring 环形缓冲区变量
* @param val 变量名,用于接收元素值 (例如 int ch)
* @param ok 变量名,用于接收成功状态 (cbool 类型)
*/
#define scc_ring_peek(ring, val, ok) \
do { \
scc_ring_ensure(ring, ok); \
if (!(ok)) \
break; \
if ((ring).probe >= (ring).tail) { \
ok = 0; \
break; \
} \
usize _phys = scc_ring_phys(ring, (ring).probe); \
val = (ring).data[_phys]; \
} while (0)
/**
* @brief 获取 probe 位置的元素,并将 probe 前进一步
* @param ring 环形缓冲区变量
* @param val 变量名,用于接收元素值 (例如 int ch)
* @param ok 变量名,用于接收成功状态 (cbool 类型)
*/
#define scc_ring_next(ring, val, ok) \
do { \
scc_ring_ensure(ring, ok); \
if (!(ok)) \
break; \
if ((ring).probe >= (ring).tail) { \
ok = 0; \
break; \
} \
usize _phys = scc_ring_phys(ring, (ring).probe); \
val = (ring).data[_phys]; \
(ring).probe++; \
} while (0)
/**
* @brief 将 probe 后退一步 (不能低于 head)
* @param ring 环形缓冲区变量
* @param ok 变量名,用于接收成功状态 (cbool 类型)
*/
#define scc_ring_back(ring, ok) \
do { \
if ((ring).probe > (ring).head) { \
(ring).probe--; \
ok = 1; \
} else { \
ok = 0; \
} \
} while (0)
/**
* @brief 将 probe 重置为 head
* @param ring 环形缓冲区变量
*/
#define scc_ring_reset(ring) ((ring).probe = (ring).head)
/**
* @brief 将 head 移动到 probe 位置,标记 probe 之前的元素为已消费
* @param ring 环形缓冲区变量
*/
#define scc_ring_consume(ring) ((ring).head = (ring).probe)
/**
* @brief 返回 probe 到 tail 之间的元素个数 (可预览数量)
* @param ring 环形缓冲区变量
* @return 可预览元素个数
*/
#define scc_ring_available(ring) ((ring).tail - (ring).probe)
/**
* @brief 获取 probe 位置的元素,并将 probe 前进一步同时标记为已消费
* @param ring 环形缓冲区变量
* @param val 变量名,用于接收元素值 (例如 int ch)
* @param ok 变量名,用于接收成功状态 (cbool 类型)
*/
#define scc_ring_next_consume(ring, val, ok) \
do { \
scc_ring_next(ring, val, ok); \
scc_ring_consume(ring); \
} while (0)
#endif /* __SCC_CORE_RING_H__ */

130
runtime/scc_core/include/scc_core_stream.h
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@@ -1,130 +0,0 @@
#ifndef __SMCC_CORE_PROBE_STREAM_H__
#define __SMCC_CORE_PROBE_STREAM_H__
#include "scc_core_impl.h"
#include "scc_core_macro.h"
#include "scc_core_mem.h"
#include "scc_core_str.h"
struct scc_probe_stream;
typedef struct scc_probe_stream scc_probe_stream_t;
#define scc_stream_eof (-1)
/**
* @brief 带探针的流接口
*
* 这个流提供了双指针机制:当前读取位置(头指针)和探针位置(尾指针)。
* 尾指针只能向前移动,用于查看而不消费。
* 头指针可以前进或单次后退,但不能一直后退到尾指针后面。
*/
struct scc_probe_stream {
scc_cstring_t name;
/// @brief 消费头指针处的字符(移动头指针)
int (*consume)(scc_probe_stream_t *stream);
/// @brief 查看当前探针位置的字符,不移动任何指针
int (*peek)(scc_probe_stream_t *stream);
/// @brief 移动探针位置并返回字符
int (*next)(scc_probe_stream_t *stream);
/// @brief 回退一个字符(单次后退,探针位置后退一步)
cbool (*back)(scc_probe_stream_t *stream);
/// @brief 移动头指针到探针位置
void (*sync)(scc_probe_stream_t *stream);
/// @brief 重置探针位置到头指针位置
void (*reset)(scc_probe_stream_t *stream);
/// @brief 读取指定数量的字符到缓冲区
usize (*read_buf)(scc_probe_stream_t *stream, char *buffer, usize count);
/// @brief 检查是否到达流末尾
cbool (*is_at_end)(scc_probe_stream_t *stream);
/// @brief 销毁流并释放资源
void (*drop)(scc_probe_stream_t *stream);
};
static inline int scc_probe_stream_consume(scc_probe_stream_t *self) {
return self->consume(self);
}
static inline int scc_probe_stream_peek(scc_probe_stream_t *self) {
return self->peek(self);
}
static inline int scc_probe_stream_next(scc_probe_stream_t *self) {
return self->next(self);
}
static inline void scc_probe_stream_sync(scc_probe_stream_t *self) {
self->sync(self);
}
static inline cbool scc_probe_stream_back(scc_probe_stream_t *self) {
return self->back(self);
}
static inline void scc_probe_stream_reset(scc_probe_stream_t *self) {
self->reset(self);
}
static inline usize scc_probe_stream_read_buf(scc_probe_stream_t *self,
char *buffer, usize count) {
return self->read_buf(self, buffer, count);
}
static inline cbool scc_probe_stream_is_at_end(scc_probe_stream_t *self) {
return self->is_at_end(self);
}
static inline cbool scc_probe_stream_has_more(scc_probe_stream_t *self) {
return !self->is_at_end(self);
}
static inline void scc_probe_stream_drop(scc_probe_stream_t *self) {
self->drop(self);
}
#ifndef __SCC_NO_MEM_PROBE_STREAM__
/**
* @brief 内存探针流结构
*/
typedef struct scc_mem_probe_stream {
scc_probe_stream_t stream;
const char *data;
usize data_length;
usize curr_pos; // 当前读取位置
usize probe_pos; // 探针位置用于peek
cbool owned; // 是否拥有数据(如果拥有将会自动释放)
} scc_mem_probe_stream_t;
/**
* @brief 初始化内存探针流(由你负责scc_mem_probe_stream_t的释放)
*
* @param stream 流结构指针
* @param data 数据指针
* @param length 数据长度
* @param owned 是否拥有数据(如果拥有将会自动释放)
* @return core_probe_stream_t* 成功返回流指针失败返回NULL
*/
scc_probe_stream_t *scc_mem_probe_stream_init(scc_mem_probe_stream_t *stream,
const char *data, usize length,
cbool owned);
/**
* @brief 构造内存探针流(其中drop会自动释放内存)
*
* @param data
* @param length
* @param owned 是否拥有数据(如果拥有将会自动释放)
* @return scc_probe_stream_t*
*/
scc_probe_stream_t *scc_mem_probe_stream_alloc(const char *data, usize length,
cbool owned);
#endif
#endif /* __SMCC_CORE_PROBE_STREAM_H__ */

14
runtime/scc_core/src/cfg.std_impl.c
View File

@@ -53,6 +53,20 @@ void scc_fclose(scc_file_t file) {
}
}
usize scc_fsize(scc_file_t file) {
FILE *fp = (FILE *)file;
if (fseek(fp, 0, SEEK_END) != 0) {
perror("fseek failed");
return 0;
}
usize fsize = ftell(fp);
if (fseek(fp, 0, SEEK_SET)) {
perror("fseek failed");
return 0;
}
return fsize;
}
usize scc_fread(scc_file_t file, void *buffer, usize size) {
if (!file || !buffer)
return 0;

183
runtime/scc_core/src/stream.c
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@@ -1,183 +0,0 @@
#include <scc_core_log.h>
#include <scc_core_stream.h>
#ifndef __SCC_CORE_NO_MEM_PROBE_STREAM__
static int mem_probe_stream_consume(scc_probe_stream_t *_stream) {
Assert(_stream != null);
scc_mem_probe_stream_t *stream = (scc_mem_probe_stream_t *)_stream;
if (stream->curr_pos >= stream->data_length) {
return scc_stream_eof;
}
unsigned char ch = stream->data[stream->curr_pos++];
// 如果探针位置落后于当前读取位置,则更新探针位置
if (stream->probe_pos < stream->curr_pos) {
stream->probe_pos = stream->curr_pos;
}
return (int)ch;
}
static int mem_probe_stream_peek(scc_probe_stream_t *_stream) {
Assert(_stream != null);
scc_mem_probe_stream_t *stream = (scc_mem_probe_stream_t *)_stream;
if (stream->probe_pos >= stream->data_length) {
return scc_stream_eof;
}
// 只查看而不移动探针位置
return (int)(unsigned char)stream->data[stream->probe_pos];
}
static int mem_probe_stream_next(scc_probe_stream_t *_stream) {
Assert(_stream != null);
scc_mem_probe_stream_t *stream = (scc_mem_probe_stream_t *)_stream;
if (stream->probe_pos >= stream->data_length) {
return scc_stream_eof;
}
// 返回探针位置的字符,并将探针位置向前移动
int ch = (int)(unsigned char)stream->data[stream->probe_pos];
stream->probe_pos++;
return ch;
}
static void mem_probe_stream_sync(scc_probe_stream_t *_stream) {
Assert(_stream != null);
scc_mem_probe_stream_t *stream = (scc_mem_probe_stream_t *)_stream;
// 移动头指针到探针位置(消费已查看的字符)
if (stream->probe_pos > stream->curr_pos) {
stream->curr_pos = stream->probe_pos;
}
}
static cbool mem_probe_stream_back(scc_probe_stream_t *_stream) {
Assert(_stream != null);
scc_mem_probe_stream_t *stream = (scc_mem_probe_stream_t *)_stream;
// 只能回退一个字符
if (stream->probe_pos == 0)
return false;
if (stream->curr_pos + 1 > stream->probe_pos)
return false;
stream->probe_pos--;
return true;
}
static usize mem_probe_stream_read_buf(scc_probe_stream_t *_stream,
char *buffer, usize count) {
Assert(_stream != null);
scc_mem_probe_stream_t *stream = (scc_mem_probe_stream_t *)_stream;
if (buffer == null) {
LOG_WARN("Buffer is null");
return 0;
}
usize remaining = stream->data_length - stream->curr_pos;
usize to_read = (remaining < count) ? remaining : count;
if (to_read > 0) {
scc_memcpy(buffer, stream->data + stream->curr_pos, to_read);
stream->curr_pos += to_read;
// 更新探针位置
if (stream->probe_pos < stream->curr_pos) {
stream->probe_pos = stream->curr_pos;
}
} else {
LOG_WARN("Reading past end of stream [maybe count is too large or "
"negative?]");
}
return to_read;
}
static void mem_probe_stream_reset(scc_probe_stream_t *_stream) {
Assert(_stream != null);
scc_mem_probe_stream_t *stream = (scc_mem_probe_stream_t *)_stream;
// 重置探针位置到头指针位置
stream->probe_pos = stream->curr_pos;
}
static cbool mem_probe_stream_is_at_end(scc_probe_stream_t *_stream) {
Assert(_stream != null);
scc_mem_probe_stream_t *stream = (scc_mem_probe_stream_t *)_stream;
return stream->curr_pos >= stream->data_length;
}
static void mem_probe_stream_drop(scc_probe_stream_t *_stream) {
Assert(_stream != null);
scc_mem_probe_stream_t *stream = (scc_mem_probe_stream_t *)_stream;
scc_cstring_free(&stream->stream.name);
if (stream->owned) {
scc_free((void *)stream->data);
stream->data = null;
}
}
scc_probe_stream_t *scc_mem_probe_stream_init(scc_mem_probe_stream_t *stream,
const char *data, usize length,
cbool owned) {
if (stream == null || data == null) {
LOG_ERROR("param error");
return null;
}
if (length == 0) {
LOG_WARN("input memory is empty");
owned = false;
}
stream->owned = owned;
stream->data = data;
stream->data_length = length;
stream->curr_pos = 0;
stream->probe_pos = 0;
stream->stream.name = scc_cstring_from_cstr("mem_probe_stream");
// 设置函数指针
stream->stream.consume = mem_probe_stream_consume;
stream->stream.peek = mem_probe_stream_peek;
stream->stream.next = mem_probe_stream_next;
stream->stream.sync = mem_probe_stream_sync;
stream->stream.back = mem_probe_stream_back;
stream->stream.read_buf = mem_probe_stream_read_buf;
stream->stream.reset = mem_probe_stream_reset;
stream->stream.is_at_end = mem_probe_stream_is_at_end;
stream->stream.drop = mem_probe_stream_drop;
return (scc_probe_stream_t *)stream;
}
static void scc_owned_mem_stream_drop(scc_probe_stream_t *_stream) {
scc_mem_probe_stream_t *stream = (scc_mem_probe_stream_t *)_stream;
mem_probe_stream_drop(_stream);
scc_free(stream);
}
scc_probe_stream_t *scc_mem_probe_stream_alloc(const char *data, usize length,
cbool owned) {
scc_mem_probe_stream_t *stream =
(scc_mem_probe_stream_t *)scc_malloc(sizeof(scc_mem_probe_stream_t));
if (stream == null) {
return null;
}
scc_probe_stream_t *ret =
scc_mem_probe_stream_init(stream, data, length, owned);
stream->stream.drop = scc_owned_mem_stream_drop;
Assert(ret != null);
return ret;
}
#endif /* __SCC_CORE_NO_MEM_PROBE_STREAM__ */

326
runtime/scc_core/tests/test_core_ring.c Normal file
View File

@@ -0,0 +1,326 @@
#include <scc_core.h>
#include <scc_core_ring.h>
#include <stdio.h>
#include <string.h>
#include <utest/acutest.h>
// 为测试定义简单的 token 类型(包含动态字符串)
typedef struct {
int id;
char *data;
} test_token_t;
// 定义环形缓冲区类型别名(方便使用)
typedef SCC_RING(char) char_ring_t;
typedef SCC_RING(test_token_t) token_ring_t;
/* ------------------- 字符流测试辅助 ------------------ */
static const char *test_chars = "abcdefghijklmnopqrstuvwxyz";
static size_t char_index = 0;
cbool char_fill(char *out, void *userdata) {
(void)userdata;
if (char_index < strlen(test_chars)) {
*out = test_chars[char_index++];
return true;
}
return false;
}
void reset_char_fill(void) { char_index = 0; }
/* ------------------- token 流测试辅助 ------------------ */
static int token_id = 0;
cbool token_fill(test_token_t *out, void *userdata) {
(void)userdata;
if (token_id < 10) { // 只产生 10 个 token
out->id = token_id;
out->data = (char *)scc_malloc(20);
if (!out->data)
return false;
snprintf_(out->data, 20, "token%d", token_id);
token_id++;
return true;
}
return false;
}
void reset_token_fill(void) { token_id = 0; }
void free_token(test_token_t *tok) {
if (tok->data) {
scc_free(tok->data);
tok->data = NULL;
}
}
/* ==================== 字符环形缓冲区测试 ==================== */
void test_char_ring_basic(void) {
reset_char_fill();
char_ring_t ring;
scc_ring_init(ring, 4, char_fill, 0);
char c;
cbool ok;
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == 'a');
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == 'b');
// peek
scc_ring_peek(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == 'c');
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == 'c');
// back
scc_ring_back(ring, ok);
TEST_CHECK(ok == true);
scc_ring_peek(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == 'c');
// consume & reset
scc_ring_consume(ring);
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == 'c');
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == 'd');
scc_ring_reset(ring);
scc_ring_peek(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == 'c');
scc_ring_back(ring, ok);
TEST_CHECK(ok == false); // 不能低于 head
scc_ring_free(ring);
}
void test_char_ring_full(void) {
reset_char_fill();
char_ring_t ring;
scc_ring_init(ring, 3, char_fill, 0);
char c;
cbool ok;
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // a
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // b
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // c
// 缓冲区满peek 应失败
scc_ring_peek(ring, c, ok);
TEST_CHECK(ok == false);
scc_ring_consume(ring); // 释放已读空间
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // d
TEST_CHECK(c == 'd');
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // e
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // f
scc_ring_peek(ring, c, ok);
TEST_CHECK(ok == false); // 再次满
scc_ring_free(ring);
}
void test_char_ring_eof(void) {
reset_char_fill();
char_ring_t ring;
scc_ring_init(ring, 32, char_fill, 0);
char c;
cbool ok;
for (int i = 0; i < 26; i++) {
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == test_chars[i]);
}
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == false);
scc_ring_peek(ring, c, ok);
TEST_CHECK(ok == false);
scc_ring_free(ring);
}
void test_char_ring_back_boundary(void) {
reset_char_fill();
char_ring_t ring;
scc_ring_init(ring, 4, char_fill, 0);
char c;
cbool ok;
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // a
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // b
scc_ring_back(ring, ok);
TEST_CHECK(ok == true);
scc_ring_back(ring, ok);
TEST_CHECK(ok == true);
scc_ring_back(ring, ok);
TEST_CHECK(ok == false); // 已到 head
scc_ring_peek(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == 'a');
scc_ring_free(ring);
}
void test_char_ring_consume_reset(void) {
reset_char_fill();
char_ring_t ring;
scc_ring_init(ring, 5, char_fill, 0);
char c;
cbool ok;
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // a
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // b
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // c
scc_ring_back(ring, ok);
TEST_CHECK(ok == true);
scc_ring_back(ring, ok);
TEST_CHECK(ok == true);
scc_ring_back(ring, ok);
TEST_CHECK(ok == true); // 此时 probe 指向 a
scc_ring_consume(ring); // head 移至 a
scc_ring_reset(ring); // probe 也移至 a
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == 'a'); // 应该返回 a
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // b
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true); // c
scc_ring_free(ring);
}
void test_char_ring_wrap(void) {
reset_char_fill();
char_ring_t ring;
scc_ring_init(ring, 3, char_fill, 0);
char c;
cbool ok;
for (int i = 0; i < 26; i++) {
scc_ring_next(ring, c, ok);
TEST_CHECK(ok == true);
TEST_CHECK(c == test_chars[i]);
scc_ring_consume(ring); // 立即消费,保持缓冲区几乎为空
}
scc_ring_peek(ring, c, ok);
TEST_CHECK(ok == false); // 无数据
scc_ring_free(ring);
}
/* ==================== token 环形缓冲区测试 ==================== */
void test_token_ring_basic(void) {
reset_token_fill();
token_ring_t ring;
scc_ring_init(ring, 3, token_fill, 0);
test_token_t tok;
cbool ok;
scc_ring_next(ring, tok, ok);
TEST_CHECK(ok == true);
TEST_CHECK(tok.id == 0);
free_token(&tok);
scc_ring_next(ring, tok, ok);
TEST_CHECK(ok == true);
TEST_CHECK(tok.id == 1);
free_token(&tok);
scc_ring_peek(ring, tok, ok);
TEST_CHECK(ok == true);
TEST_CHECK(tok.id == 2); // peek 不应消费
scc_ring_next(ring, tok, ok);
TEST_CHECK(ok == true);
TEST_CHECK(tok.id == 2);
scc_ring_back(ring, ok);
TEST_CHECK(ok == true);
scc_ring_peek(ring, tok, ok);
TEST_CHECK(ok == true);
TEST_CHECK(tok.id == 2);
scc_ring_next(ring, tok, ok);
TEST_CHECK(ok == true);
TEST_CHECK(tok.id == 2);
free_token(&tok);
scc_ring_consume(ring);
// 消费剩余 token
while (1) {
scc_ring_next(ring, tok, ok);
if (!ok)
break;
free_token(&tok);
}
scc_ring_free(ring);
}
void test_token_ring_full(void) {
reset_token_fill();
token_ring_t ring;
scc_ring_init(ring, 2, token_fill, 0);
test_token_t tok;
cbool ok;
scc_ring_next(ring, tok, ok);
TEST_CHECK(ok == true);
TEST_CHECK(tok.id == 0);
free_token(&tok);
scc_ring_next(ring, tok, ok);
TEST_CHECK(ok == true);
TEST_CHECK(tok.id == 1);
free_token(&tok);
scc_ring_peek(ring, tok, ok);
TEST_CHECK(ok == false); // 缓冲区满
scc_ring_consume(ring);
scc_ring_next(ring, tok, ok);
TEST_CHECK(ok == true);
TEST_CHECK(tok.id == 2);
free_token(&tok);
scc_ring_next(ring, tok, ok);
TEST_CHECK(ok == true);
TEST_CHECK(tok.id == 3);
free_token(&tok);
scc_ring_peek(ring, tok, ok);
TEST_CHECK(ok == false); // 再次满
scc_ring_free(ring);
}
/* ==================== 测试列表 ==================== */
TEST_LIST = {{"test_char_ring_basic", test_char_ring_basic},
{"test_char_ring_full", test_char_ring_full},
{"test_char_ring_eof", test_char_ring_eof},
{"test_char_ring_back_boundary", test_char_ring_back_boundary},
{"test_char_ring_consume_reset", test_char_ring_consume_reset},
{"test_char_ring_wrap", test_char_ring_wrap},
{"test_token_ring_basic", test_token_ring_basic},
{"test_token_ring_full", test_token_ring_full},
{NULL, NULL}};