freebsd-skq/usr.bin/xlint/lint1/lint1.h
Roman Divacky 7f18fc27cd Rename the ALIGN macro to LINT_ALIGN so it does not clash with machine/param.h
Bump the alignment to 16bytes because lint1 memory allocator is used for
objects that require 16bytes alignment on amd64 (ie. val_t). This makes
lint1 work when compiled with compiler(s) that use SSE for memcpy on amd64.
(e.g. clang).

Approved by:	ed (mentor)
2010-04-09 15:21:11 +00:00

417 lines
13 KiB
C

/* $NetBSD: lint1.h,v 1.12 2002/01/31 19:33:27 tv Exp $ */
/*
* Copyright (c) 1996 Christopher G. Demetriou. All Rights Reserved.
* Copyright (c) 1994, 1995 Jochen Pohl
* All Rights Reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Jochen Pohl for
* The NetBSD Project.
* 4. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include "lint.h"
#include "op.h"
/* XXX - works for most systems, but the whole ALIGN thing needs to go away */
#ifndef LINT_ALIGN
#define LINT_ALIGN(x) (((x) + 15) & ~15)
#endif
/*
* Describes the position of a declaration or anything else.
*/
typedef struct {
int p_line;
const char *p_file;
int p_uniq; /* uniquifier */
} pos_t;
/* Copies curr_pos, keeping things unique. */
#define UNIQUE_CURR_POS(pos) \
do { \
STRUCT_ASSIGN((pos), curr_pos); \
curr_pos.p_uniq++; \
if (curr_pos.p_file == csrc_pos.p_file) \
csrc_pos.p_uniq++; \
} while (0)
/*
* Strings cannot be referenced to simply by a pointer to its first
* char. This is because strings can contain NUL characters other than the
* trailing NUL.
*
* Strings are stored with a trailing NUL.
*/
typedef struct strg {
tspec_t st_tspec; /* CHAR or WCHAR */
size_t st_len; /* length without trailing NUL */
union {
u_char *_st_cp;
wchar_t *_st_wcp;
} st_u;
} strg_t;
#define st_cp st_u._st_cp
#define st_wcp st_u._st_wcp
/*
* qualifiers (only for lex/yacc interface)
*/
typedef enum {
CONST, VOLATILE
} tqual_t;
/*
* Integer and floating point values are stored in this structure
*/
typedef struct {
tspec_t v_tspec;
int v_ansiu; /* set if an integer constant is
unsigned in ANSI C */
union {
int64_t _v_quad; /* integers */
ldbl_t _v_ldbl; /* floats */
} v_u;
} val_t;
#define v_quad v_u._v_quad
#define v_ldbl v_u._v_ldbl
/*
* Structures of type str_t uniqely identify structures. This can't
* be done in structures of type type_t, because these are copied
* if they must be modified. So it would not be possible to check
* if to structures are identical by comparing the pointers to
* the type structures.
*
* The typename is used if the structure is unnamed to identify
* the structure type in pass 2.
*/
typedef struct {
u_int size; /* size in bit */
u_int align : 15; /* alignment in bit */
u_int sincompl : 1; /* set if incomplete type */
struct sym *memb; /* list of members */
struct sym *stag; /* symbol table entry of tag */
struct sym *stdef; /* symbol table entry of first typename */
} str_t;
/*
* same as above for enums
*/
typedef struct {
u_int eincompl : 1; /* incomplete enum type */
struct sym *elem; /* list of enumerators */
struct sym *etag; /* symbol table entry of tag */
struct sym *etdef; /* symbol table entry of first typename */
} enum_t;
/*
* Types are represented by concatenation of structures of type type_t
* via t_subt.
*/
typedef struct type {
tspec_t t_tspec; /* type specifier */
u_int t_aincompl : 1; /* incomplete array type */
u_int t_const : 1; /* const modifier */
u_int t_volatile : 1; /* volatile modifier */
u_int t_proto : 1; /* function prototype (t_args valid) */
u_int t_vararg : 1; /* protoype with ... */
u_int t_typedef : 1; /* type defined with typedef */
u_int t_isfield : 1; /* type is bitfield */
u_int t_isenum : 1; /* type is (or was) enum (t_enum valid) */
union {
int _t_dim; /* dimension */
str_t *_t_str; /* struct/union tag */
enum_t *_t_enum; /* enum tag */
struct sym *_t_args; /* arguments (if t_proto) */
} t_u;
struct {
u_int _t_flen : 8; /* length of bit-field */
u_int _t_foffs : 24; /* offset of bit-field */
} t_b;
struct type *t_subt; /* element type (arrays), return value
(functions), or type pointer points to */
} type_t;
#define t_dim t_u._t_dim
#define t_str t_u._t_str
#define t_field t_u._t_field
#define t_enum t_u._t_enum
#define t_args t_u._t_args
#define t_flen t_b._t_flen
#define t_foffs t_b._t_foffs
/*
* types of symbols
*/
typedef enum {
FVFT, /* variables, functions, type names, enums */
FMOS, /* members of structs or unions */
FTAG, /* tags */
FLAB /* labels */
} symt_t;
/*
* storage classes
*/
typedef enum {
NOSCL,
EXTERN, /* external symbols (indep. of decl_t) */
STATIC, /* static symbols (local and global) */
AUTO, /* automatic symbols (except register) */
REG, /* register */
TYPEDEF, /* typedef */
STRTAG,
UNIONTAG,
ENUMTAG,
MOS, /* member of struct */
MOU, /* member of union */
ENUMCON, /* enumerator */
ABSTRACT, /* abstract symbol (sizeof, casts, unnamed argument) */
ARG, /* argument */
PARG, /* used in declaration stack during prototype
declaration */
INLINE /* only used by the parser */
} scl_t;
/*
* symbol table entry
*/
typedef struct sym {
const char *s_name; /* name */
const char *s_rename; /* renamed symbol's given name */
pos_t s_dpos; /* position of last (prototype)definition,
prototypedeclaration, no-prototype-def.,
tentative definition or declaration,
in this order */
pos_t s_spos; /* position of first initialisation */
pos_t s_upos; /* position of first use */
symt_t s_kind; /* type of symbol */
u_int s_keyw : 1; /* keyword */
u_int s_field : 1; /* bit-field */
u_int s_set : 1; /* variable set, label defined */
u_int s_used : 1; /* variable/label used */
u_int s_arg : 1; /* symbol is function argument */
u_int s_reg : 1; /* symbol is register variable */
u_int s_defarg : 1; /* undefined symbol in old style function
definition */
u_int s_rimpl : 1; /* return value of function implizit decl. */
u_int s_osdef : 1; /* symbol stems from old style function def. */
u_int s_inline : 1; /* true if this is an inline function */
struct sym *s_xsym; /* for local declared external symbols pointer
to external symbol with same name */
def_t s_def; /* declared, tentative defined, defined */
scl_t s_scl; /* storage class */
int s_blklev; /* level of declaration, -1 if not in symbol
table */
type_t *s_type; /* type */
val_t s_value; /* value (if enumcon) */
union {
str_t *_s_st; /* tag, if it is a struct/union member */
enum_t *_s_et; /* tag, if it is an enumerator */
tspec_t _s_tsp; /* type (only for keywords) */
tqual_t _s_tqu; /* qualifier (only for keywords) */
struct sym *_s_args; /* arguments in old style function
definitions */
} u;
struct sym *s_link; /* next symbol with same hash value */
struct sym **s_rlink; /* pointer to s_link of prev. symbol */
struct sym *s_nxt; /* next struct/union member, enumerator,
argument */
struct sym *s_dlnxt; /* next symbol declared on same level */
} sym_t;
#define s_styp u._s_st
#define s_etyp u._s_et
#define s_tspec u._s_tsp
#define s_tqual u._s_tqu
#define s_args u._s_args
/*
* Used to keep some informations about symbols before they are entered
* into the symbol table.
*/
typedef struct sbuf {
const char *sb_name; /* name of symbol */
size_t sb_len; /* length (without '\0') */
int sb_hash; /* hash value */
sym_t *sb_sym; /* symbol table entry */
struct sbuf *sb_nxt; /* for freelist */
} sbuf_t;
/*
* tree node
*/
typedef struct tnode {
op_t tn_op; /* operator */
type_t *tn_type; /* type */
u_int tn_lvalue : 1; /* node is lvalue */
u_int tn_cast : 1; /* if tn_op == CVT its an explizit cast */
u_int tn_parn : 1; /* node parenthesized */
union {
struct {
struct tnode *_tn_left; /* (left) operand */
struct tnode *_tn_right; /* right operand */
} tn_s;
sym_t *_tn_sym; /* symbol if op == NAME */
val_t *_tn_val; /* value if op == CON */
strg_t *_tn_strg; /* string if op == STRING */
} tn_u;
} tnode_t;
#define tn_left tn_u.tn_s._tn_left
#define tn_right tn_u.tn_s._tn_right
#define tn_sym tn_u._tn_sym
#define tn_val tn_u._tn_val
#define tn_strg tn_u._tn_strg
/*
* For nested declarations a stack exists, which holds all information
* needed for the current level. dcs points to the top element of this
* stack.
*
* ctx describes the context of the current declaration. Its value is
* one of
* EXTERN global declarations
* MOS oder MOU declarations of struct or union members
* ENUMCON declarations of enums
* ARG declaration of arguments in old style function definitions
* PARG declaration of arguments in function prototypes
* AUTO declaration of local symbols
* ABSTRACT abstract declarations (sizeof, casts)
*
*/
typedef struct dinfo {
tspec_t d_atyp; /* VOID, CHAR, INT, FLOAT or DOUBLE */
tspec_t d_smod; /* SIGNED or UNSIGN */
tspec_t d_lmod; /* SHORT, LONG or QUAD */
scl_t d_scl; /* storage class */
type_t *d_type; /* after deftyp() pointer to the type used
for all declarators */
sym_t *d_rdcsym; /* redeclared symbol */
int d_offset; /* offset of next structure member */
int d_stralign; /* alignment required for current structure */
scl_t d_ctx; /* context of declaration */
u_int d_const : 1; /* const in declaration specifiers */
u_int d_volatile : 1; /* volatile in declaration specifiers */
u_int d_inline : 1; /* inline in declaration specifiers */
u_int d_mscl : 1; /* multiple storage classes */
u_int d_terr : 1; /* invalid type combination */
u_int d_nedecl : 1; /* 1 if at least a tag is declared */
u_int d_vararg : 1; /* ... in current function decl. */
u_int d_proto : 1; /* current funct. decl. is prototype */
u_int d_notyp : 1; /* set if no type specifier was present */
u_int d_asm : 1; /* set if d_ctx == AUTO and asm() present */
type_t *d_tagtyp; /* tag during member declaration */
sym_t *d_fargs; /* list of arguments during function def. */
pos_t d_fdpos; /* position of function definition */
sym_t *d_dlsyms; /* first symbol declared at this level */
sym_t **d_ldlsym; /* points to s_dlnxt in last symbol decl.
at this level */
sym_t *d_fpsyms; /* symbols defined in prototype */
struct dinfo *d_nxt; /* next level */
} dinfo_t;
/*
* Type of stack which is used for initialisation of aggregate types.
*/
typedef struct istk {
type_t *i_type; /* type of initialisation */
type_t *i_subt; /* type of next level */
u_int i_brace : 1; /* need } for pop */
u_int i_nolimit : 1; /* incomplete array type */
sym_t *i_mem; /* next structure member */
int i_cnt; /* # of remaining elements */
struct istk *i_nxt; /* previous level */
} istk_t;
/*
* Used to collect information about pointers and qualifiers in
* declarators.
*/
typedef struct pqinf {
int p_pcnt; /* number of asterisks */
u_int p_const : 1;
u_int p_volatile : 1;
struct pqinf *p_nxt;
} pqinf_t;
/*
* Case values are stored in a list of type clst_t.
*/
typedef struct clst {
val_t cl_val;
struct clst *cl_nxt;
} clst_t;
/*
* Used to keep informations about nested control statements.
*/
typedef struct cstk {
int c_env; /* type of statement (T_IF, ...) */
u_int c_loop : 1; /* continue && break are valid */
u_int c_switch : 1; /* case && break are valid */
u_int c_break : 1; /* loop/switch has break */
u_int c_cont : 1; /* loop has continue */
u_int c_default : 1; /* switch has default */
u_int c_infinite : 1; /* break condition always false
(for (;;), while (1)) */
u_int c_rchif : 1; /* end of if-branch reached */
u_int c_noretval : 1; /* had "return;" */
u_int c_retval : 1; /* had "return (e);" */
type_t *c_swtype; /* type of switch expression */
clst_t *c_clst; /* list of case values */
struct mbl *c_fexprm; /* saved memory for end of loop
expression in for() */
tnode_t *c_f3expr; /* end of loop expr in for() */
pos_t c_fpos; /* position of end of loop expr */
pos_t c_cfpos; /* same for csrc_pos */
struct cstk *c_nxt; /* outer control statement */
} cstk_t;
#include "externs1.h"
#define ERR_SETSIZE 1024
#define __NERRBITS (sizeof(unsigned int))
typedef struct err_set {
unsigned int errs_bits[(ERR_SETSIZE + __NERRBITS-1) / __NERRBITS];
} err_set;
#define ERR_SET(n, p) \
((p)->errs_bits[(n)/__NERRBITS] |= (1 << ((n) % __NERRBITS)))
#define ERR_CLR(n, p) \
((p)->errs_bits[(n)/__NERRBITS] &= ~(1 << ((n) % __NERRBITS)))
#define ERR_ISSET(n, p) \
((p)->errs_bits[(n)/__NERRBITS] & (1 << ((n) % __NERRBITS)))
#define ERR_ZERO(p) (void)memset((p), 0, sizeof(*(p)))
extern err_set msgset;