chibicc/chibicc.h
2020-12-07 12:00:06 +09:00

445 lines
9.3 KiB
C

#define _POSIX_C_SOURCE 200809L
#include <assert.h>
#include <ctype.h>
#include <errno.h>
#include <glob.h>
#include <libgen.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdnoreturn.h>
#include <string.h>
#include <strings.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <time.h>
#include <unistd.h>
#define MAX(x, y) ((x) < (y) ? (y) : (x))
#define MIN(x, y) ((x) < (y) ? (x) : (y))
#ifndef __GNUC__
# define __attribute__(x)
#endif
typedef struct Type Type;
typedef struct Node Node;
typedef struct Member Member;
typedef struct Relocation Relocation;
typedef struct Hideset Hideset;
//
// strings.c
//
typedef struct {
char **data;
int capacity;
int len;
} StringArray;
void strarray_push(StringArray *arr, char *s);
char *format(char *fmt, ...) __attribute__((format(printf, 1, 2)));
//
// tokenize.c
//
// Token
typedef enum {
TK_IDENT, // Identifiers
TK_PUNCT, // Punctuators
TK_KEYWORD, // Keywords
TK_STR, // String literals
TK_NUM, // Numeric literals
TK_PP_NUM, // Preprocessing numbers
TK_EOF, // End-of-file markers
} TokenKind;
typedef struct {
char *name;
int file_no;
char *contents;
// For #line directive
char *display_name;
int line_delta;
} File;
// Token type
typedef struct Token Token;
struct Token {
TokenKind kind; // Token kind
Token *next; // Next token
int64_t val; // If kind is TK_NUM, its value
long double fval; // If kind is TK_NUM, its value
char *loc; // Token location
int len; // Token length
Type *ty; // Used if TK_NUM or TK_STR
char *str; // String literal contents including terminating '\0'
File *file; // Source location
char *filename; // Filename
int line_no; // Line number
int line_delta; // Line number
bool at_bol; // True if this token is at beginning of line
bool has_space; // True if this token follows a space character
Hideset *hideset; // For macro expansion
Token *origin; // If this is expanded from a macro, the original token
};
noreturn void error(char *fmt, ...) __attribute__((format(printf, 1, 2)));
noreturn void error_at(char *loc, char *fmt, ...) __attribute__((format(printf, 2, 3)));
noreturn void error_tok(Token *tok, char *fmt, ...) __attribute__((format(printf, 2, 3)));
void warn_tok(Token *tok, char *fmt, ...) __attribute__((format(printf, 2, 3)));
bool equal(Token *tok, char *op);
Token *skip(Token *tok, char *op);
bool consume(Token **rest, Token *tok, char *str);
void convert_pp_tokens(Token *tok);
File **get_input_files(void);
File *new_file(char *name, int file_no, char *contents);
Token *tokenize_string_literal(Token *tok, Type *basety);
Token *tokenize(File *file);
Token *tokenize_file(char *filename);
#define unreachable() \
error("internal error at %s:%d", __FILE__, __LINE__)
//
// preprocess.c
//
char *search_include_paths(char *filename);
bool file_exists(char *path);
void init_macros(void);
void define_macro(char *name, char *buf);
void undef_macro(char *name);
Token *preprocess(Token *tok);
//
// parse.c
//
// Variable or function
typedef struct Obj Obj;
struct Obj {
Obj *next;
char *name; // Variable name
Type *ty; // Type
Token *tok; // representative token
bool is_local; // local or global/function
int align; // alignment
// Local variable
int offset;
// Global variable or function
bool is_function;
bool is_definition;
bool is_static;
// Global variable
bool is_tentative;
bool is_tls;
char *init_data;
Relocation *rel;
// Function
bool is_inline;
Obj *params;
Node *body;
Obj *locals;
Obj *va_area;
Obj *alloca_bottom;
int stack_size;
// Static inline function
bool is_live;
bool is_root;
StringArray refs;
};
// Global variable can be initialized either by a constant expression
// or a pointer to another global variable. This struct represents the
// latter.
typedef struct Relocation Relocation;
struct Relocation {
Relocation *next;
int offset;
char **label;
long addend;
};
// AST node
typedef enum {
ND_NULL_EXPR, // Do nothing
ND_ADD, // +
ND_SUB, // -
ND_MUL, // *
ND_DIV, // /
ND_NEG, // unary -
ND_MOD, // %
ND_BITAND, // &
ND_BITOR, // |
ND_BITXOR, // ^
ND_SHL, // <<
ND_SHR, // >>
ND_EQ, // ==
ND_NE, // !=
ND_LT, // <
ND_LE, // <=
ND_ASSIGN, // =
ND_COND, // ?:
ND_COMMA, // ,
ND_MEMBER, // . (struct member access)
ND_ADDR, // unary &
ND_DEREF, // unary *
ND_NOT, // !
ND_BITNOT, // ~
ND_LOGAND, // &&
ND_LOGOR, // ||
ND_RETURN, // "return"
ND_IF, // "if"
ND_FOR, // "for" or "while"
ND_DO, // "do"
ND_SWITCH, // "switch"
ND_CASE, // "case"
ND_BLOCK, // { ... }
ND_GOTO, // "goto"
ND_GOTO_EXPR, // "goto" labels-as-values
ND_LABEL, // Labeled statement
ND_LABEL_VAL, // [GNU] Labels-as-values
ND_FUNCALL, // Function call
ND_EXPR_STMT, // Expression statement
ND_STMT_EXPR, // Statement expression
ND_VAR, // Variable
ND_VLA_PTR, // VLA designator
ND_NUM, // Integer
ND_CAST, // Type cast
ND_MEMZERO, // Zero-clear a stack variable
ND_ASM, // "asm"
} NodeKind;
// AST node type
struct Node {
NodeKind kind; // Node kind
Node *next; // Next node
Type *ty; // Type, e.g. int or pointer to int
Token *tok; // Representative token
Node *lhs; // Left-hand side
Node *rhs; // Right-hand side
// "if" or "for" statement
Node *cond;
Node *then;
Node *els;
Node *init;
Node *inc;
// "break" and "continue" labels
char *brk_label;
char *cont_label;
// Block or statement expression
Node *body;
// Struct member access
Member *member;
// Function call
Type *func_ty;
Node *args;
bool pass_by_stack;
Obj *ret_buffer;
// Goto or labeled statement, or labels-as-values
char *label;
char *unique_label;
Node *goto_next;
// Switch
Node *case_next;
Node *default_case;
// Case
long begin;
long end;
// "asm" string literal
char *asm_str;
// Variable
Obj *var;
// Numeric literal
int64_t val;
long double fval;
};
Node *new_cast(Node *expr, Type *ty);
int64_t const_expr(Token **rest, Token *tok);
Obj *parse(Token *tok);
//
// type.c
//
typedef enum {
TY_VOID,
TY_BOOL,
TY_CHAR,
TY_SHORT,
TY_INT,
TY_LONG,
TY_FLOAT,
TY_DOUBLE,
TY_LDOUBLE,
TY_ENUM,
TY_PTR,
TY_FUNC,
TY_ARRAY,
TY_VLA, // variable-length array
TY_STRUCT,
TY_UNION,
} TypeKind;
struct Type {
TypeKind kind;
int size; // sizeof() value
int align; // alignment
bool is_unsigned; // unsigned or signed
Type *origin; // for type compatibility check
// Pointer-to or array-of type. We intentionally use the same member
// to represent pointer/array duality in C.
//
// In many contexts in which a pointer is expected, we examine this
// member instead of "kind" member to determine whether a type is a
// pointer or not. That means in many contexts "array of T" is
// naturally handled as if it were "pointer to T", as required by
// the C spec.
Type *base;
// Declaration
Token *name;
Token *name_pos;
// Array
int array_len;
// Variable-length array
Node *vla_len; // # of elements
Obj *vla_size; // sizeof() value
// Struct
Member *members;
bool is_flexible;
// Function type
Type *return_ty;
Type *params;
bool is_variadic;
Type *next;
};
// Struct member
struct Member {
Member *next;
Type *ty;
Token *tok; // for error message
Token *name;
int idx;
int align;
int offset;
// Bitfield
bool is_bitfield;
int bit_offset;
int bit_width;
};
extern Type *ty_void;
extern Type *ty_bool;
extern Type *ty_char;
extern Type *ty_short;
extern Type *ty_int;
extern Type *ty_long;
extern Type *ty_uchar;
extern Type *ty_ushort;
extern Type *ty_uint;
extern Type *ty_ulong;
extern Type *ty_float;
extern Type *ty_double;
extern Type *ty_ldouble;
bool is_integer(Type *ty);
bool is_flonum(Type *ty);
bool is_numeric(Type *ty);
bool is_compatible(Type *t1, Type *t2);
Type *copy_type(Type *ty);
Type *pointer_to(Type *base);
Type *func_type(Type *return_ty);
Type *array_of(Type *base, int size);
Type *vla_of(Type *base, Node *expr);
Type *enum_type(void);
Type *struct_type(void);
void add_type(Node *node);
//
// codegen.c
//
void codegen(Obj *prog, FILE *out);
int align_to(int n, int align);
//
// unicode.c
//
int encode_utf8(char *buf, uint32_t c);
uint32_t decode_utf8(char **new_pos, char *p);
bool is_ident1(uint32_t c);
bool is_ident2(uint32_t c);
int display_width(char *p, int len);
//
// hashmap.c
//
typedef struct {
char *key;
int keylen;
void *val;
} HashEntry;
typedef struct {
HashEntry *buckets;
int capacity;
int used;
} HashMap;
void *hashmap_get(HashMap *map, char *key);
void *hashmap_get2(HashMap *map, char *key, int keylen);
void hashmap_put(HashMap *map, char *key, void *val);
void hashmap_put2(HashMap *map, char *key, int keylen, void *val);
void hashmap_delete(HashMap *map, char *key);
void hashmap_delete2(HashMap *map, char *key, int keylen);
void hashmap_test(void);
//
// main.c
//
bool file_exists(char *path);
extern StringArray include_paths;
extern bool opt_fcommon;
extern char *base_file;