/*
* $Id: asm.c 536 2007-06-02 06:09:00Z elliotth $
*
* Copyright (c) 2000-2003, Darren Hiebert
*
* This source code is released for free distribution under the terms of the
* GNU General Public License.
*
* This module contains functions for generating tags for assembly language
* files.
*/
/*
* INCLUDE FILES
*/
#include "general.h" /* must always come first */
#include <string.h>
#include "debug.h"
#include "keyword.h"
#include "parse.h"
#include "read.h"
#include "routines.h"
#include "vstring.h"
/*
* DATA DECLARATIONS
*/
typedef enum {
K_NONE = -1, K_DEFINE, K_LABEL, K_MACRO, K_TYPE
} AsmKind;
typedef enum {
OP_UNDEFINED = -1,
OP_ALIGN,
OP_COLON_EQUAL,
OP_END,
OP_ENDM,
OP_ENDMACRO,
OP_ENDP,
OP_ENDS,
OP_EQU,
OP_EQUAL,
OP_LABEL,
OP_MACRO,
OP_PROC,
OP_RECORD,
OP_SECTIONS,
OP_SET,
OP_STRUCT,
OP_LAST
} opKeyword;
typedef struct {
const char *operator;
opKeyword keyword;
} asmKeyword;
typedef struct {
opKeyword keyword;
AsmKind kind;
} opKind;
/*
* DATA DEFINITIONS
*/
static langType Lang_asm;
static kindOption AsmKinds [] = {
{ TRUE, 'd', "define", "defines" },
{ TRUE, 'l', "label", "labels" },
{ TRUE, 'm', "macro", "macros" },
{ TRUE, 't', "type", "types (structs and records)" }
};
static const asmKeyword AsmKeywords [] = {
{ "align", OP_ALIGN },
{ "endmacro", OP_ENDMACRO },
{ "endm", OP_ENDM },
{ "end", OP_END },
{ "endp", OP_ENDP },
{ "ends", OP_ENDS },
{ "equ", OP_EQU },
{ "label", OP_LABEL },
{ "macro", OP_MACRO },
{ ":=", OP_COLON_EQUAL },
{ "=", OP_EQUAL },
{ "proc", OP_PROC },
{ "record", OP_RECORD },
{ "sections", OP_SECTIONS },
{ "set", OP_SET },
{ "struct", OP_STRUCT }
};
static const opKind OpKinds [] = {
/* must be ordered same as opKeyword enumeration */
{ OP_ALIGN, K_NONE },
{ OP_COLON_EQUAL, K_DEFINE },
{ OP_END, K_NONE },
{ OP_ENDM, K_NONE },
{ OP_ENDMACRO, K_NONE },
{ OP_ENDP, K_NONE },
{ OP_ENDS, K_NONE },
{ OP_EQU, K_DEFINE },
{ OP_EQUAL, K_DEFINE },
{ OP_LABEL, K_LABEL },
{ OP_MACRO, K_MACRO },
{ OP_PROC, K_LABEL },
{ OP_RECORD, K_TYPE },
{ OP_SECTIONS, K_NONE },
{ OP_SET, K_DEFINE },
{ OP_STRUCT, K_TYPE }
};
/*
* FUNCTION DEFINITIONS
*/
static void buildAsmKeywordHash (void)
{
const size_t count = sizeof (AsmKeywords) / sizeof (AsmKeywords [0]);
size_t i;
for (i = 0 ; i < count ; ++i)
{
const asmKeyword* const p = AsmKeywords + i;
addKeyword (p->operator, Lang_asm, (int) p->keyword);
}
}
static opKeyword analyzeOperator (const vString *const op)
{
vString *keyword = vStringNew ();
opKeyword result;
vStringCopyToLower (keyword, op);
result = (opKeyword) lookupKeyword (vStringValue (keyword), Lang_asm);
vStringDelete (keyword);
return result;
}
static boolean isInitialSymbolCharacter (int c)
{
return (boolean) (c != '\0' && (isalpha (c) || strchr ("_$", c) != NULL));
}
static boolean isSymbolCharacter (int c)
{
/* '?' character is allowed in AMD 29K family */
return (boolean) (c != '\0' && (isalnum (c) || strchr ("_$?", c) != NULL));
}
static boolean readPreProc (const unsigned char *const line)
{
boolean result;
const unsigned char *cp = line;
vString *name = vStringNew ();
while (isSymbolCharacter ((int) *cp))
{
vStringPut (name, *cp);
++cp;
}
vStringTerminate (name);
result = (boolean) (strcmp (vStringValue (name), "define") == 0);
if (result)
{
while (isspace ((int) *cp))
++cp;
vStringClear (name);
while (isSymbolCharacter ((int) *cp))
{
vStringPut (name, *cp);
++cp;
}
vStringTerminate (name);
makeSimpleTag (name, AsmKinds, K_DEFINE);
}
vStringDelete (name);
return result;
}
static AsmKind operatorKind (
const vString *const operator,
boolean *const found)
{
AsmKind result = K_NONE;
const opKeyword kw = analyzeOperator (operator);
*found = (boolean) (kw != OP_UNDEFINED);
if (*found)
{
result = OpKinds [kw].kind;
Assert (OpKinds [kw].keyword == kw);
}
return result;
}
/* We must check for "DB", "DB.L", "DCB.W" (68000)
*/
static boolean isDefineOperator (const vString *const operator)
{
const unsigned char *const op =
(unsigned char*) vStringValue (operator);
const size_t length = vStringLength (operator);
const boolean result = (boolean) (length > 0 &&
toupper ((int) *op) == 'D' &&
(length == 2 ||
(length == 4 && (int) op [2] == '.') ||
(length == 5 && (int) op [3] == '.')));
return result;
}
static void makeAsmTag (
const vString *const name,
const vString *const operator,
const boolean labelCandidate,
const boolean nameFollows)
{
if (vStringLength (name) > 0)
{
boolean found;
const AsmKind kind = operatorKind (operator, &found);
if (found)
{
if (kind != K_NONE)
makeSimpleTag (name, AsmKinds, kind);
}
else if (isDefineOperator (operator))
{
if (! nameFollows)
makeSimpleTag (name, AsmKinds, K_DEFINE);
}
else if (labelCandidate)
{
operatorKind (name, &found);
if (! found)
makeSimpleTag (name, AsmKinds, K_LABEL);
}
}
}
static const unsigned char *readSymbol (
const unsigned char *const start,
vString *const sym)
{
const unsigned char *cp = start;
vStringClear (sym);
if (isInitialSymbolCharacter ((int) *cp))
{
while (isSymbolCharacter ((int) *cp))
{
vStringPut (sym, *cp);
++cp;
}
vStringTerminate (sym);
}
return cp;
}
static const unsigned char *readOperator (
const unsigned char *const start,
vString *const operator)
{
const unsigned char *cp = start;
vStringClear (operator);
while (*cp != '\0' && ! isspace ((int) *cp))
{
vStringPut (operator, *cp);
++cp;
}
vStringTerminate (operator);
return cp;
}
static void findAsmTags (void)
{
vString *name = vStringNew ();
vString *operator = vStringNew ();
const unsigned char *line;
boolean inCComment = FALSE;
while ((line = fileReadLine ()) != NULL)
{
const unsigned char *cp = line;
boolean labelCandidate = (boolean) (! isspace ((int) *cp));
boolean nameFollows = FALSE;
const boolean isComment = (boolean)
(*cp != '\0' && strchr (";*@", *cp) != NULL);
/* skip comments */
if (strncmp ((const char*) cp, "/*", (size_t) 2) == 0)
{
inCComment = TRUE;
cp += 2;
}
if (inCComment)
{
do
{
if (strncmp ((const char*) cp, "*/", (size_t) 2) == 0)
{
inCComment = FALSE;
cp += 2;
break;
}
++cp;
} while (*cp != '\0');
}
if (isComment || inCComment)
continue;
/* read preprocessor defines */
if (*cp == '#')
{
++cp;
readPreProc (cp);
continue;
}
/* skip white space */
while (isspace ((int) *cp))
++cp;
/* read symbol */
cp = readSymbol (cp, name);
if (vStringLength (name) > 0 && *cp == ':')
{
labelCandidate = TRUE;
++cp;
}
if (! isspace ((int) *cp) && *cp != '\0')
continue;
/* skip white space */
while (isspace ((int) *cp))
++cp;
/* skip leading dot */
#if 0
if (*cp == '.')
++cp;
#endif
cp = readOperator (cp, operator);
/* attempt second read of symbol */
if (vStringLength (name) == 0)
{
while (isspace ((int) *cp))
++cp;
cp = readSymbol (cp, name);
nameFollows = TRUE;
}
makeAsmTag (name, operator, labelCandidate, nameFollows);
}
vStringDelete (name);
vStringDelete (operator);
}
static void initialize (const langType language)
{
Lang_asm = language;
buildAsmKeywordHash ();
}
extern parserDefinition* AsmParser (void)
{
static const char *const extensions [] = {
"asm", "ASM", "s", "S", NULL
};
static const char *const patterns [] = {
"*.A51",
"*.29[kK]",
"*.[68][68][kKsSxX]",
"*.[xX][68][68]",
NULL
};
parserDefinition* def = parserNew ("Asm");
def->kinds = AsmKinds;
def->kindCount = KIND_COUNT (AsmKinds);
def->extensions = extensions;
def->patterns = patterns;
def->parser = findAsmTags;
def->initialize = initialize;
return def;
}
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