/*-------------------------------------------------------------------------
- SDCCglue.c - glues everything we have done together into one file.
+ SDCCglue.c - glues everything we have done together into one file.
Written By - Sandeep Dutta . sandeep.dutta@usa.net (1998)
-
+
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2, or (at your option) any
later version.
-
+
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
-
+
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
-
+
In other words, you are welcome to use, share and improve this program.
You are forbidden to forbid anyone else to use, share and improve
- what you give them. Help stamp out software-hoarding!
+ what you give them. Help stamp out software-hoarding!
-------------------------------------------------------------------------*/
#include "common.h"
-#include "asm.h"
#include <time.h>
+#include "newalloc.h"
+#include <fcntl.h>
+#include <sys/stat.h>
+#include "dbuf_string.h"
+
+#ifdef _WIN32
+#include <io.h>
+#else
+#include <unistd.h>
+#endif
+
+symbol *interrupts[INTNO_MAX+1];
-symbol *interrupts[256];
-/*extern char *aopLiteral (value *, int);*//* drdani Jan 30 2000 */
-void printIval (symbol *, link *, initList *, FILE *);
-extern int noAlloc;
-set *publics = NULL; /* public variables */
-set *externs = NULL; /* Varibles that are declared as extern */
+void printIval (symbol *, sym_link *, initList *, struct dbuf_s *, bool check);
+set *publics = NULL; /* public variables */
+set *externs = NULL; /* Variables that are declared as extern */
-/* TODO: this should be configurable (DS803C90 uses more than 6) */
-int maxInterrupts = 6;
+unsigned maxInterrupts = 0;
int allocInfo = 1;
-extern int maxRegBank ;
symbol *mainf;
-extern char *VersionString;
-extern FILE *codeOutFile;
-set *tmpfileSet = NULL; /* set of tmp file created by the compiler */
-set *tmpfileNameSet = NULL; /* All are unlinked at close. */
+int noInit = 0; /* no initialization */
-/*-----------------------------------------------------------------*/
-/* closeTmpFiles - closes all tmp files created by the compiler */
-/* because of BRAIN DEAD MS/DOS & CYGNUS Libraries */
-/*-----------------------------------------------------------------*/
-DEFSETFUNC(closeTmpFiles)
-{
- FILE *tfile = item;
-
- if (tfile)
- fclose(tfile);
-
- return 0;
-}
-/*-----------------------------------------------------------------*/
-/* rmTmpFiles - closes all tmp files created by the compiler */
-/* because of BRAIN DEAD MS/DOS & CYGNUS Libraries */
-/*-----------------------------------------------------------------*/
-DEFSETFUNC(rmTmpFiles)
+char *
+aopLiteralLong (value * val, int offset, int size)
{
- char *name = item;
-
- if (name) {
- unlink(name);
- free(name);
+ union {
+ float f;
+ unsigned char c[4];
+ }
+ fl;
+
+ if (!val) {
+ // assuming we have been warned before
+ val = constCharVal (0);
+ }
+
+ /* if it is a float then it gets tricky */
+ /* otherwise it is fairly simple */
+ if (!IS_FLOAT (val->type)) {
+ unsigned long v = ulFromVal (val);
+
+ v >>= (offset * 8);
+ switch (size) {
+ case 1:
+ tsprintf (buffer, sizeof(buffer),
+ "!immedbyte", (unsigned int) v & 0xff);
+ break;
+ case 2:
+ tsprintf (buffer, sizeof(buffer),
+ "!immedword", (unsigned int) v & 0xffff);
+ break;
+ default:
+ /* Hmm. Too big for now. */
+ assert (0);
}
- return 0;
-}
+ return Safe_strdup (buffer);
+ }
-/*-----------------------------------------------------------------*/
-/* copyFile - copies source file to destination file */
-/*-----------------------------------------------------------------*/
-void copyFile (FILE * dest, FILE * src)
-{
- int ch;
-
- rewind (src);
- while (!feof (src))
- if ((ch = fgetc (src)) != EOF)
- fputc (ch, dest);
-}
+ /* PENDING: For now size must be 1 */
+ assert (size == 1);
-char *aopLiteralLong(value *val, int offset, int size)
-{
- char *rs;
- union {
- float f;
- unsigned char c[4];
- } fl;
-
- /* if it is a float then it gets tricky */
- /* otherwise it is fairly simple */
- if (!IS_FLOAT(val->type)) {
- unsigned long v = floatFromVal(val);
-
- v >>= (offset * 8);
- switch (size) {
- case 1:
- tsprintf(buffer, "!immedbyte", (unsigned int)v & 0xff);
- break;
- case 2:
- tsprintf(buffer, "!immedword", (unsigned int)v & 0xffff);
- break;
- default:
- /* Hmm. Too big for now. */
- assert(0);
- }
- ALLOC_ATOMIC(rs,strlen(buffer)+1);
- return strcpy (rs,buffer);
- }
-
- /* PENDING: For now size must be 1 */
- assert(size == 1);
-
- /* it is type float */
- fl.f = (float) floatFromVal(val);
-#ifdef _BIG_ENDIAN
- tsprintf(buffer, "!immedbyte", fl.c[3-offset]);
+ /* it is type float */
+ fl.f = (float) floatFromVal (val);
+#ifdef WORDS_BIGENDIAN
+ tsprintf (buffer, sizeof(buffer),
+ "!immedbyte", fl.c[3 - offset]);
#else
- tsprintf(buffer, "!immedbyte", fl.c[offset]);
+ tsprintf (buffer, sizeof(buffer),
+ "!immedbyte", fl.c[offset]);
#endif
- ALLOC_ATOMIC(rs,strlen(buffer)+1);
- return strcpy (rs,buffer);
+ return Safe_strdup (buffer);
}
/*-----------------------------------------------------------------*/
/* aopLiteral - string from a literal value */
/*-----------------------------------------------------------------*/
-char *aopLiteral (value *val, int offset)
+char *
+aopLiteral (value * val, int offset)
{
- return aopLiteralLong(val, offset, 1);
+ return aopLiteralLong (val, offset, 1);
}
/*-----------------------------------------------------------------*/
/* emitRegularMap - emit code for maps with no special cases */
/*-----------------------------------------------------------------*/
-static void emitRegularMap (memmap * map, bool addPublics, bool arFlag)
+static void
+emitRegularMap (memmap * map, bool addPublics, bool arFlag)
{
- symbol *sym;
-
- if (addPublics) {
- /* PENDING: special case here - should remove */
- if (!strcmp(map->sname, CODE_NAME))
- tfprintf(map->oFile, "\t!areacode\n", map->sname);
- else if (!strcmp(map->sname, DATA_NAME))
- tfprintf(map->oFile, "\t!areadata\n", map->sname);
- else if (!strcmp(map->sname, HOME_NAME))
- tfprintf(map->oFile, "\t!areahome\n", map->sname);
- else
- tfprintf(map->oFile, "\t!area\n", map->sname);
- }
-
- /* print the area name */
- for (sym = setFirstItem (map->syms); sym;
- sym = setNextItem (map->syms)) {
-
- /* if extern then add it into the extern list */
- if (IS_EXTERN (sym->etype)) {
- addSetHead (&externs, sym);
- continue;
- }
-
- /* if allocation required check is needed
- then check if the symbol really requires
- allocation only for local variables */
- if (arFlag && !IS_AGGREGATE(sym->type) &&
- !(sym->_isparm && !IS_REGPARM(sym->etype)) &&
- !sym->allocreq && sym->level)
- continue ;
-
- /* if global variable & not static or extern
- and addPublics allowed then add it to the public set */
- if ((sym->level == 0 ||
- (sym->_isparm && !IS_REGPARM(sym->etype))) &&
- addPublics &&
- !IS_STATIC (sym->etype) &&
- (sym->used || sym->fbody)) {
- addSetHead (&publics, sym);
- }
-
- /* if extern then do nothing or is a function
- then do nothing */
- if (IS_FUNC (sym->type))
- continue;
-
- /* print extra debug info if required */
- if ((options.debug || sym->level == 0) && !options.nodebug) {
-
- cdbSymbol(sym,cdbFile,FALSE,FALSE);
-
- if (!sym->level) /* global */
- if (IS_STATIC(sym->etype))
- fprintf(map->oFile,"F%s$",moduleName); /* scope is file */
- else
- fprintf(map->oFile,"G$"); /* scope is global */
- else
- /* symbol is local */
- fprintf(map->oFile,"L%s$",(sym->localof ? sym->localof->name : "-null-"));
- fprintf(map->oFile,"%s$%d$%d",sym->name,sym->level,sym->block);
- }
-
- /* if is has an absolute address then generate
- an equate for this no need to allocate space */
- if (SPEC_ABSA (sym->etype)) {
- if ((options.debug || sym->level == 0) && !options.nodebug)
- fprintf (map->oFile," == 0x%04x\n",SPEC_ADDR (sym->etype));
-
- fprintf (map->oFile, "%s\t=\t0x%04x\n",
- sym->rname,
- SPEC_ADDR (sym->etype));
- }
- else {
- /* allocate space */
- if ((options.debug || sym->level == 0) && !options.nodebug)
- fprintf(map->oFile,"==.\n");
- if (IS_STATIC(sym->etype))
- tfprintf(map->oFile, "!slabeldef\n", sym->rname);
- else
- tfprintf(map->oFile, "!labeldef\n", sym->rname);
- tfprintf(map->oFile, "\t!ds\n", (unsigned int)getSize (sym->type) & 0xffff);
- }
-
- /* if it has a initial value then do it only if
- it is a global variable */
- if (sym->ival && sym->level == 0) {
- ast *ival = NULL;
-
- if (IS_AGGREGATE (sym->type))
- ival = initAggregates (sym, sym->ival, NULL);
- else
- ival = newNode ('=', newAst (EX_VALUE, symbolVal (sym)),
- decorateType (resolveSymbols (list2expr (sym->ival))));
- codeOutFile = statsg->oFile;
- allocInfo = 0;
- eBBlockFromiCode (iCodeFromAst (ival));
- allocInfo = 1;
- sym->ival = NULL;
- }
+ symbol *sym;
+ ast *ival = NULL;
+
+ if (!map)
+ return;
+
+ if (addPublics)
+ {
+ /* PENDING: special case here - should remove */
+ if (!strcmp (map->sname, CODE_NAME))
+ dbuf_tprintf (&map->oBuf, "\t!areacode\n", map->sname);
+ else if (!strcmp (map->sname, DATA_NAME))
+ dbuf_tprintf (&map->oBuf, "\t!areadata\n", map->sname);
+ else if (!strcmp (map->sname, HOME_NAME))
+ dbuf_tprintf (&map->oBuf, "\t!areahome\n", map->sname);
+ else
+ dbuf_tprintf (&map->oBuf, "\t!area\n", map->sname);
+ }
+
+ for (sym = setFirstItem (map->syms); sym; sym = setNextItem (map->syms))
+ {
+ symbol *newSym = NULL;
+
+ /* if extern then add it into the extern list */
+ if (IS_EXTERN (sym->etype))
+ {
+ addSetHead (&externs, sym);
+ continue;
+ }
+
+ /* if allocation required check is needed
+ then check if the symbol really requires
+ allocation only for local variables */
+
+ if (arFlag && !IS_AGGREGATE (sym->type) &&
+ !(sym->_isparm && !IS_REGPARM (sym->etype)) &&
+ !sym->allocreq && sym->level)
+ continue;
+
+ /* for bitvar locals and parameters */
+ if (!arFlag && !sym->allocreq && sym->level
+ && !SPEC_ABSA (sym->etype))
+ {
+ continue;
+ }
+
+ /* if global variable & not static or extern
+ and addPublics allowed then add it to the public set */
+ if ((sym->level == 0 ||
+ (sym->_isparm && !IS_REGPARM (sym->etype))) &&
+ addPublics &&
+ !IS_STATIC (sym->etype) &&
+ (IS_FUNC (sym->type) ? (sym->used || IFFUNC_HASBODY (sym->type)) : 1))
+ {
+ addSetHead (&publics, sym);
+ }
+
+ /* if extern then do nothing or is a function
+ then do nothing */
+ if (IS_FUNC (sym->type) && !(sym->isitmp))
+ continue;
+
+ /* print extra debug info if required */
+ if (options.debug)
+ {
+ if (!sym->level) /* global */
+ {
+ if (IS_STATIC (sym->etype))
+ dbuf_printf (&map->oBuf, "F%s$", moduleName); /* scope is file */
+ else
+ dbuf_printf (&map->oBuf, "G$"); /* scope is global */
+ }
+ else
+ {
+ /* symbol is local */
+ dbuf_printf (&map->oBuf, "L%s$", (sym->localof ? sym->localof->name : "-null-"));
+ }
+ dbuf_printf (&map->oBuf, "%s$%d$%d", sym->name, sym->level, sym->block);
+ }
+
+ /* if it has an initial value then do it only if
+ it is a global variable */
+ if (sym->ival && sym->level == 0)
+ {
+ if ((SPEC_OCLS (sym->etype) == xidata) && !SPEC_ABSA (sym->etype))
+ {
+ /* create a new "XINIT (CODE)" symbol, that will be emitted later
+ in the static seg */
+ newSym=copySymbol (sym);
+ SPEC_OCLS(newSym->etype)=xinit;
+ SNPRINTF (newSym->name, sizeof(newSym->name), "__xinit_%s", sym->name);
+ SNPRINTF (newSym->rname, sizeof(newSym->rname), "__xinit_%s", sym->rname);
+ if (IS_SPEC (newSym->type))
+ SPEC_CONST (newSym->type) = 1;
+ else
+ DCL_PTR_CONST (newSym->type) = 1;
+ SPEC_STAT(newSym->etype)=1;
+ resolveIvalSym(newSym->ival, newSym->type);
+
+ // add it to the "XINIT (CODE)" segment
+ addSet(&xinit->syms, newSym);
+
+ if (!SPEC_ABSA (sym->etype))
+ {
+ struct dbuf_s tmpBuf;
+
+ dbuf_init(&tmpBuf, 4096);
+ // before allocation we must parse the sym->ival tree
+ // but without actually generating initialization code
+ ++noAlloc;
+ resolveIvalSym (sym->ival, sym->type);
+ ++noInit;
+ printIval (sym, sym->type, sym->ival, &tmpBuf, TRUE);
+ --noInit;
+ --noAlloc;
+ dbuf_destroy(&tmpBuf);
+ }
+ }
+ else
+ {
+ if (IS_AGGREGATE (sym->type))
+ {
+ ival = initAggregates (sym, sym->ival, NULL);
+ }
+ else
+ {
+ if (getNelements (sym->type, sym->ival)>1)
+ {
+ werrorfl (sym->fileDef, sym->lineDef, W_EXCESS_INITIALIZERS, "scalar", sym->name);
+ }
+ ival = newNode ('=', newAst_VALUE (symbolVal (sym)),
+ decorateType (resolveSymbols (list2expr (sym->ival)), RESULT_TYPE_NONE));
+ }
+ codeOutBuf = &statsg->oBuf;
+
+ if (ival)
+ {
+ // set ival's lineno to where the symbol was defined
+ setAstFileLine (ival, filename = sym->fileDef, lineno = sym->lineDef);
+ // check if this is not a constant expression
+ if (!constExprTree (ival))
+ {
+ werror (E_CONST_EXPECTED, "found expression");
+ // but try to do it anyway
+ }
+ allocInfo = 0;
+ if (!astErrors (ival))
+ eBBlockFromiCode (iCodeFromAst (ival));
+ allocInfo = 1;
+ }
+ }
+ }
+
+ /* if it has an absolute address then generate
+ an equate for this no need to allocate space */
+ if (SPEC_ABSA (sym->etype) && !sym->ival)
+ {
+ char *equ = "=";
+ if (options.debug) {
+ dbuf_printf (&map->oBuf, " == 0x%04x\n", SPEC_ADDR (sym->etype));
+ }
+ if (TARGET_IS_XA51)
+ {
+ if (map == sfr)
+ {
+ equ = "sfr";
+ }
+ else if (map == bit || map == sfrbit)
+ {
+ equ="bit";
+ }
+ }
+ dbuf_printf (&map->oBuf, "%s\t%s\t0x%04x\n", sym->rname, equ, SPEC_ADDR (sym->etype));
+ }
+ else
+ {
+ int size = getSize (sym->type) + sym->flexArrayLength;
+ if (size == 0)
+ {
+ werrorfl (sym->fileDef, sym->lineDef, E_UNKNOWN_SIZE, sym->name);
+ }
+ /* allocate space */
+ if (options.debug)
+ {
+ dbuf_printf (&map->oBuf, "==.\n");
+ }
+ if (SPEC_ABSA (sym->etype))
+ {
+ dbuf_tprintf (&map->oBuf, "\t!org\n", SPEC_ADDR (sym->etype));
+ }
+ if (IS_STATIC (sym->etype) || sym->level)
+ dbuf_tprintf (&map->oBuf, "!slabeldef\n", sym->rname);
+ else
+ dbuf_tprintf (&map->oBuf, "!labeldef\n", sym->rname);
+ dbuf_tprintf (&map->oBuf, "\t!ds\n", (unsigned int) size & 0xffff);
+ }
+ sym->ival = NULL;
}
}
/*-----------------------------------------------------------------*/
/* initPointer - pointer initialization code massaging */
/*-----------------------------------------------------------------*/
-value *initPointer (initList *ilist)
+value *
+initPointer (initList * ilist, sym_link *toType)
{
- value *val;
- ast *expr = list2expr(ilist);
-
- if (!expr)
- goto wrong;
-
- /* try it the oldway first */
- if ((val = constExprValue(expr,FALSE)))
- return val;
-
- /* no then we have to do these cludgy checks */
- /* pointers can be initialized with address of
- a variable or address of an array element */
- if (IS_AST_OP(expr) && expr->opval.op == '&') {
- /* address of symbol */
- if (IS_AST_SYM_VALUE(expr->left)) {
- val = copyValue(AST_VALUE(expr->left));
- val->type = newLink();
- if (SPEC_SCLS(expr->left->etype) == S_CODE) {
- DCL_TYPE(val->type) = CPOINTER ;
- DCL_PTR_CONST(val->type) = port->mem.code_ro;
- }
- else
- if (SPEC_SCLS(expr->left->etype) == S_XDATA)
- DCL_TYPE(val->type) = FPOINTER;
- else
- if (SPEC_SCLS(expr->left->etype) == S_XSTACK )
- DCL_TYPE(val->type) = PPOINTER ;
- else
- if (SPEC_SCLS(expr->left->etype) == S_IDATA)
- DCL_TYPE(val->type) = IPOINTER ;
- else
- if (SPEC_SCLS(expr->left->etype) == S_EEPROM)
- DCL_TYPE(val->type) = EEPPOINTER ;
- else
- DCL_TYPE(val->type) = POINTER ;
- val->type->next = expr->left->ftype;
- val->etype = getSpec(val->type);
- return val;
- }
-
- /* if address of indexed array */
- if (IS_AST_OP(expr->left) && expr->left->opval.op == '[')
- return valForArray(expr->left);
-
- /* if address of structure element then
- case 1. a.b ; */
- if (IS_AST_OP(expr->left) &&
- expr->left->opval.op == '.' ) {
- return valForStructElem(expr->left->left,
- expr->left->right);
- }
-
- /* case 2. (&a)->b ;
- (&some_struct)->element */
- if (IS_AST_OP(expr->left) &&
- expr->left->opval.op == PTR_OP &&
- IS_ADDRESS_OF_OP(expr->left->left))
- return valForStructElem(expr->left->left->left,
- expr->left->right);
-
- }
- /* case 3. (((char *) &a) +/- constant) */
- if (IS_AST_OP(expr) &&
- (expr->opval.op == '+' || expr->opval.op == '-') &&
- IS_AST_OP(expr->left) && expr->left->opval.op == CAST &&
- IS_AST_OP(expr->left->right) &&
- expr->left->right->opval.op == '&' &&
- IS_AST_LIT_VALUE(expr->right)) {
-
- return valForCastAggr(expr->left->right->left,
- expr->left->left->opval.lnk,
- expr->right,expr->opval.op);
-
- }
-
- wrong:
- werror(E_INIT_WRONG);
- return NULL;
-
+ value *val;
+ ast *expr;
+
+ if (!ilist) {
+ return valCastLiteral(toType, 0.0);
+ }
+
+ expr = list2expr (ilist);
+
+ if (!expr)
+ goto wrong;
+
+ /* try it the old way first */
+ if ((val = constExprValue (expr, FALSE)))
+ return val;
+
+ /* ( ptr + constant ) */
+ if (IS_AST_OP (expr) &&
+ (expr->opval.op == '+' || expr->opval.op == '-') &&
+ IS_AST_SYM_VALUE (expr->left) &&
+ (IS_ARRAY(expr->left->ftype) || IS_PTR(expr->left->ftype)) &&
+ compareType(toType, expr->left->ftype) &&
+ IS_AST_LIT_VALUE (expr->right)) {
+ return valForCastAggr (expr->left, expr->left->ftype,
+ expr->right,
+ expr->opval.op);
+ }
+
+ /* (char *)&a */
+ if (IS_AST_OP(expr) && expr->opval.op==CAST &&
+ IS_AST_OP(expr->right) && expr->right->opval.op=='&') {
+ if (compareType(toType, expr->left->ftype)!=1) {
+ werror (W_INIT_WRONG);
+ printFromToType(expr->left->ftype, toType);
+ }
+ // skip the cast ???
+ expr=expr->right;
+ }
+
+ /* no then we have to do these cludgy checks */
+ /* pointers can be initialized with address of
+ a variable or address of an array element */
+ if (IS_AST_OP (expr) && expr->opval.op == '&') {
+ /* address of symbol */
+ if (IS_AST_SYM_VALUE (expr->left)) {
+ val = AST_VALUE (expr->left);
+ val->type = newLink (DECLARATOR);
+ if (SPEC_SCLS (expr->left->etype) == S_CODE) {
+ DCL_TYPE (val->type) = CPOINTER;
+ DCL_PTR_CONST (val->type) = port->mem.code_ro;
+ }
+ else if (SPEC_SCLS (expr->left->etype) == S_XDATA)
+ DCL_TYPE (val->type) = FPOINTER;
+ else if (SPEC_SCLS (expr->left->etype) == S_XSTACK)
+ DCL_TYPE (val->type) = PPOINTER;
+ else if (SPEC_SCLS (expr->left->etype) == S_IDATA)
+ DCL_TYPE (val->type) = IPOINTER;
+ else if (SPEC_SCLS (expr->left->etype) == S_EEPROM)
+ DCL_TYPE (val->type) = EEPPOINTER;
+ else
+ DCL_TYPE (val->type) = POINTER;
+ val->type->next = expr->left->ftype;
+ val->etype = getSpec (val->type);
+ return val;
+ }
+
+ /* if address of indexed array */
+ if (IS_AST_OP (expr->left) && expr->left->opval.op == '[')
+ return valForArray (expr->left);
+
+ /* if address of structure element then
+ case 1. a.b ; */
+ if (IS_AST_OP (expr->left) &&
+ expr->left->opval.op == '.') {
+ return valForStructElem (expr->left->left,
+ expr->left->right);
+ }
+
+ /* case 2. (&a)->b ;
+ (&some_struct)->element */
+ if (IS_AST_OP (expr->left) &&
+ expr->left->opval.op == PTR_OP &&
+ IS_ADDRESS_OF_OP (expr->left->left)) {
+ return valForStructElem (expr->left->left->left,
+ expr->left->right);
+ }
+ }
+ /* case 3. (((char *) &a) +/- constant) */
+ if (IS_AST_OP (expr) &&
+ (expr->opval.op == '+' || expr->opval.op == '-') &&
+ IS_AST_OP (expr->left) && expr->left->opval.op == CAST &&
+ IS_AST_OP (expr->left->right) &&
+ expr->left->right->opval.op == '&' &&
+ IS_AST_LIT_VALUE (expr->right)) {
+
+ return valForCastAggr (expr->left->right->left,
+ expr->left->left->opval.lnk,
+ expr->right, expr->opval.op);
+
+ }
+ /* case 4. (char *)(array type) */
+ if (IS_CAST_OP(expr) && IS_AST_SYM_VALUE (expr->right) &&
+ IS_ARRAY(expr->right->ftype)) {
+
+ val = copyValue (AST_VALUE (expr->right));
+ val->type = newLink (DECLARATOR);
+ if (SPEC_SCLS (expr->right->etype) == S_CODE) {
+ DCL_TYPE (val->type) = CPOINTER;
+ DCL_PTR_CONST (val->type) = port->mem.code_ro;
+ }
+ else if (SPEC_SCLS (expr->right->etype) == S_XDATA)
+ DCL_TYPE (val->type) = FPOINTER;
+ else if (SPEC_SCLS (expr->right->etype) == S_XSTACK)
+ DCL_TYPE (val->type) = PPOINTER;
+ else if (SPEC_SCLS (expr->right->etype) == S_IDATA)
+ DCL_TYPE (val->type) = IPOINTER;
+ else if (SPEC_SCLS (expr->right->etype) == S_EEPROM)
+ DCL_TYPE (val->type) = EEPPOINTER;
+ else
+ DCL_TYPE (val->type) = POINTER;
+ val->type->next = expr->right->ftype->next;
+ val->etype = getSpec (val->type);
+ return val;
+ }
+ wrong:
+ if (expr)
+ werrorfl (expr->filename, expr->lineno, E_INCOMPAT_PTYPES);
+ else
+ werror (E_INCOMPAT_PTYPES);
+ return NULL;
+
}
/*-----------------------------------------------------------------*/
/* printChar - formats and prints a characater string with DB */
/*-----------------------------------------------------------------*/
-void printChar (FILE * ofile, char *s, int plen)
+void
+printChar (struct dbuf_s * oBuf, char *s, int plen)
{
- int i;
- int len = strlen (s);
- int pplen = 0;
- char buf[100];
- char *p = buf;
-
- while (len && pplen < plen) {
- i = 60;
- while (i && *s && pplen < plen) {
- if (*s < ' ' || *s == '\"') {
- *p = '\0';
- if (p != buf)
- tfprintf(ofile, "\t!ascii\n", buf);
- tfprintf(ofile, "\t!db !constbyte\n", *s);
- p = buf;
- }
- else {
- *p = *s;
- p++;
- }
- s++;
- pplen++;
- i--;
- }
- if (p != buf) {
- *p = '\0';
- tfprintf(ofile, "\t!ascii\n", buf);
- p = buf;
- }
-
- if (len > 60)
- len -= 60;
- else
- len = 0;
- }
- tfprintf(ofile, "\t!db !constbyte\n", 0);
+ int i;
+ int len = plen;
+ int pplen = 0;
+ char buf[100];
+ char *p = buf;
+
+ while (len && pplen < plen)
+ {
+ i = 60;
+ while (i && pplen < plen)
+ {
+ if (*s < ' ' || *s == '\"' || *s=='\\')
+ {
+ *p = '\0';
+ if (p != buf)
+ dbuf_tprintf (oBuf, "\t!ascii\n", buf);
+ dbuf_tprintf (oBuf, "\t!db !constbyte\n", (unsigned char)*s);
+ p = buf;
+ }
+ else
+ {
+ *p = *s;
+ p++;
+ }
+ s++;
+ pplen++;
+ i--;
+ }
+ if (p != buf)
+ {
+ *p = '\0';
+ dbuf_tprintf (oBuf, "\t!ascii\n", buf);
+ p = buf;
+ }
+
+ if (len > 60)
+ len -= 60;
+ else
+ len = 0;
+ }
+ while (pplen < plen)
+ {
+ dbuf_tprintf (oBuf, "\t!db !constbyte\n", 0);
+ pplen++;
+ }
}
/*-----------------------------------------------------------------*/
/* return the generic pointer high byte for a given pointer type. */
/*-----------------------------------------------------------------*/
-int pointerTypeToGPByte(const int p_type)
+int
+pointerTypeToGPByte (const int p_type, const char *iname, const char *oname)
{
- switch (p_type)
+ switch (p_type)
{
- case IPOINTER:
- case POINTER:
- return 0;
- case GPOINTER:
- /* hack - if we get a generic pointer, we just assume
- * it's an FPOINTER (i.e. in XDATA space).
- */
- case FPOINTER:
- return 1;
- case CPOINTER:
- return 2;
- case PPOINTER:
- return 3;
- default:
- fprintf(stderr, "*** internal error: unknown pointer type %d in GPByte.\n",
- p_type);
- break;
- }
- return -1;
+ case IPOINTER:
+ case POINTER:
+ return GPTYPE_NEAR;
+ case GPOINTER:
+ werror (E_CANNOT_USE_GENERIC_POINTER,
+ iname ? iname : "<null>",
+ oname ? oname : "<null>");
+ exit (1);
+ case FPOINTER:
+ return GPTYPE_FAR;
+ case CPOINTER:
+ return GPTYPE_CODE;
+ case PPOINTER:
+ return GPTYPE_XSTACK;
+ default:
+ fprintf (stderr, "*** internal error: unknown pointer type %d in GPByte.\n",
+ p_type);
+ break;
+ }
+ return -1;
}
-
-
+
+
/*-----------------------------------------------------------------*/
/* printPointerType - generates ival for pointer type */
/*-----------------------------------------------------------------*/
-void _printPointerType(FILE *oFile, const char *name)
+void
+_printPointerType (struct dbuf_s * oBuf, const char *name)
{
- if (IS_DS390_PORT)
+ if (options.model == MODEL_FLAT24)
{
- fprintf(oFile, "\t.byte %s,(%s >> 8),(%s >> 16)",name,name,name);
+ if (port->little_endian)
+ dbuf_printf (oBuf, "\t.byte %s,(%s >> 8),(%s >> 16)", name, name, name);
+ else
+ dbuf_printf (oBuf, "\t.byte (%s >> 16),(%s >> 8),%s", name, name, name);
}
- else
+ else
{
- fprintf(oFile, "\t.byte %s,(%s >> 8)",name,name);
+ if (port->little_endian)
+ dbuf_printf (oBuf, "\t.byte %s,(%s >> 8)", name, name);
+ else
+ dbuf_printf (oBuf, "\t.byte (%s >> 8),%s", name, name);
}
}
/*-----------------------------------------------------------------*/
/* printPointerType - generates ival for pointer type */
/*-----------------------------------------------------------------*/
-void printPointerType(FILE *oFile, const char *name)
+void
+printPointerType (struct dbuf_s * oBuf, const char *name)
{
- _printPointerType(oFile, name);
- fprintf(oFile, "\n");
+ _printPointerType (oBuf, name);
+ dbuf_printf (oBuf, "\n");
}
/*-----------------------------------------------------------------*/
/* printGPointerType - generates ival for generic pointer type */
/*-----------------------------------------------------------------*/
-void printGPointerType(FILE *oFile, const char *name,
- const unsigned int type)
+void
+printGPointerType (struct dbuf_s * oBuf, const char *iname, const char *oname,
+ const unsigned int type)
{
- _printPointerType(oFile,name);
- fprintf(oFile, ",#0x%02x\n", pointerTypeToGPByte(type));
+ _printPointerType (oBuf, iname);
+ dbuf_printf (oBuf, ",#0x%02x\n", pointerTypeToGPByte (type, iname, oname));
}
/*-----------------------------------------------------------------*/
/* printIvalType - generates ival for int/char */
/*-----------------------------------------------------------------*/
-void printIvalType (link * type, initList * ilist, FILE * oFile)
+void
+printIvalType (symbol *sym, sym_link * type, initList * ilist, struct dbuf_s * oBuf)
{
- value *val;
-
- /* if initList is deep */
- if (ilist->type == INIT_DEEP)
- ilist = ilist->init.deep;
-
- val = list2val (ilist);
- switch (getSize (type)) {
+ value *val;
+
+ /* if initList is deep */
+ if (ilist && (ilist->type == INIT_DEEP))
+ ilist = ilist->init.deep;
+
+ if (!(val = list2val (ilist))) {
+ // assuming a warning has been thrown
+ val = constCharVal (0);
+ }
+
+ /* check if the literal value is within bounds */
+ if (checkConstantRange (type, val->etype, '=', FALSE) == CCR_OVL &&
+ !options.lessPedantic)
+ {
+ werror (W_LIT_OVERFLOW);
+ }
+
+ if (val->type != type) {
+ val = valCastLiteral(type, floatFromVal(val));
+ }
+
+ switch (getSize (type)) {
+ case 1:
+ if (!val)
+ dbuf_tprintf (oBuf, "\t!db !constbyte\n", 0);
+ else
+ dbuf_tprintf (oBuf, "\t!dbs\n",
+ aopLiteral (val, 0));
+ break;
+
+ case 2:
+ if (port->use_dw_for_init)
+ dbuf_tprintf (oBuf, "\t!dws\n", aopLiteralLong (val, 0, 2));
+ else if (port->little_endian)
+ dbuf_printf (oBuf, "\t.byte %s,%s\n", aopLiteral (val, 0), aopLiteral (val, 1));
+ else
+ dbuf_printf (oBuf, "\t.byte %s,%s\n", aopLiteral (val, 1), aopLiteral (val, 0));
+ break;
+ case 4:
+ if (!val) {
+ dbuf_tprintf (oBuf, "\t!dw !constword\n", 0);
+ dbuf_tprintf (oBuf, "\t!dw !constword\n", 0);
+ }
+ else if (port->little_endian) {
+ dbuf_printf (oBuf, "\t.byte %s,%s,%s,%s\n",
+ aopLiteral (val, 0), aopLiteral (val, 1),
+ aopLiteral (val, 2), aopLiteral (val, 3));
+ }
+ else {
+ dbuf_printf (oBuf, "\t.byte %s,%s,%s,%s\n",
+ aopLiteral (val, 3), aopLiteral (val, 2),
+ aopLiteral (val, 1), aopLiteral (val, 0));
+ }
+ break;
+ }
+}
+
+/*-----------------------------------------------------------------*/
+/* printIvalBitFields - generate initializer for bitfields */
+/*-----------------------------------------------------------------*/
+static void
+printIvalBitFields (symbol **sym, initList **ilist, struct dbuf_s * oBuf)
+{
+ symbol *lsym = *sym;
+ initList *lilist = *ilist;
+ unsigned long ival = 0;
+ int size = 0;
+
+ while (lsym)
+ {
+
+ if (0 == SPEC_BLEN (lsym->etype))
+ {
+ /* bit-field structure member with a width of 0 */
+ lsym = lsym->next;
+ break;
+ }
+ else if (!SPEC_BUNNAMED (lsym->etype))
+ {
+ /* not an unnamed bit-field structure member */
+ value *val = list2val (lilist);
+ int bit_length = SPEC_BLEN (lsym->etype);
+
+ if (size)
+ {
+ if (bit_length > 8)
+ size += (bit_length + 7) / 8;
+ }
+ else
+ size = (bit_length + 7) / 8;
+
+ /* check if the literal value is within bounds */
+ if (val &&
+ checkConstantRange (lsym->etype, val->etype, '=', FALSE) == CCR_OVL &&
+ !options.lessPedantic)
+ {
+ werror (W_LIT_OVERFLOW);
+ }
+
+ ival |= (ulFromVal (val) & ((1ul << bit_length) - 1ul)) << SPEC_BSTR (lsym->etype);
+ lilist = lilist ? lilist->next : NULL;
+ }
+ lsym = lsym->next;
+ }
+
+ switch (size)
+ {
case 1:
- if (!val)
- tfprintf(oFile, "\t!db !constbyte\n", 0);
- else
- tfprintf(oFile, "\t!dbs\n",
- aopLiteral (val, 0));
- break;
+ dbuf_tprintf (oBuf, "\t!db !constbyte\n", ival);
+ break;
case 2:
- if (port->use_dw_for_init)
- tfprintf(oFile, "\t!dws\n", aopLiteralLong(val, 0, 2));
- else
- fprintf(oFile, "\t.byte %s,%s\n", aopLiteral(val, 0),aopLiteral(val, 1));
- break;
+ dbuf_tprintf (oBuf, "\t!dw !constword\n", ival);
+ break;
+
case 4:
- if (!val) {
- tfprintf (oFile, "\t!dw !constword\n", 0);
- tfprintf (oFile, "\t!dw !constword\n", 0);
- }
- else {
- fprintf (oFile, "\t.byte %s,%s,%s,%s\n",
- aopLiteral (val, 0), aopLiteral (val, 1),
- aopLiteral (val, 2), aopLiteral (val, 3));
- }
- break;
+ dbuf_tprintf (oBuf, "\t!dw !constword,!constword\n",
+ (ival >> 16) & 0xffff, (ival & 0xffff));
+ break;
}
+ *sym = lsym;
+ *ilist = lilist;
}
/*-----------------------------------------------------------------*/
/* printIvalStruct - generates initial value for structures */
/*-----------------------------------------------------------------*/
-void printIvalStruct (symbol * sym,link * type,
- initList * ilist, FILE * oFile)
+static void
+printIvalStruct (symbol * sym, sym_link * type,
+ initList * ilist, struct dbuf_s * oBuf)
{
- symbol *sflds;
- initList *iloop;
-
- sflds = SPEC_STRUCT (type)->fields;
- if (ilist->type != INIT_DEEP) {
- werror (E_INIT_STRUCT, sym->name);
- return;
- }
-
- iloop = ilist->init.deep;
-
- for (; sflds; sflds = sflds->next, iloop = (iloop ? iloop->next : NULL))
- printIval (sflds, sflds->type, iloop, oFile);
-
- return;
+ symbol *sflds;
+ initList *iloop = NULL;
+
+ sflds = SPEC_STRUCT (type)->fields;
+
+ if (ilist)
+ {
+ if (ilist->type != INIT_DEEP)
+ {
+ werrorfl (sym->fileDef, sym->lineDef, E_INIT_STRUCT, sym->name);
+ return;
+ }
+
+ iloop = ilist->init.deep;
+ }
+
+ if (SPEC_STRUCT (type)->type == UNION)
+ {
+ printIval (sym, sflds->type, iloop, oBuf, 1);
+ iloop = iloop ? iloop->next : NULL;
+ }
+ else
+ {
+ while (sflds)
+ {
+ if (IS_BITFIELD (sflds->type))
+ printIvalBitFields(&sflds, &iloop, oBuf);
+ else
+ {
+ printIval (sym, sflds->type, iloop, oBuf, 1);
+ sflds = sflds->next;
+ iloop = iloop ? iloop->next : NULL;
+ }
+ }
+ }
+
+ if (iloop)
+ werrorfl (sym->fileDef, sym->lineDef, W_EXCESS_INITIALIZERS, "struct", sym->name);
}
/*-----------------------------------------------------------------*/
/* printIvalChar - generates initital value for character array */
/*-----------------------------------------------------------------*/
-int printIvalChar (link * type, initList * ilist, FILE * oFile, char *s)
+int
+printIvalChar (symbol * sym, sym_link * type, initList * ilist, struct dbuf_s * oBuf, char *s, bool check)
{
- value *val;
- int remain;
-
- if (!s) {
-
- val = list2val (ilist);
- /* if the value is a character string */
- if (IS_ARRAY (val->type) && IS_CHAR (val->etype)) {
- if (!DCL_ELEM (type))
- DCL_ELEM (type) = strlen (SPEC_CVAL (val->etype).v_char) + 1;
-
- /* if size mismatch */
-/* if (DCL_ELEM (type) < ((int) strlen (SPEC_CVAL (val->etype).v_char) + 1)) */
-/* werror (E_ARRAY_BOUND); */
-
- printChar (oFile, SPEC_CVAL (val->etype).v_char,DCL_ELEM(type));
-
- if ((remain = (DCL_ELEM (type) - strlen (SPEC_CVAL (val->etype).v_char) -1))>0)
- while (remain--)
- tfprintf (oFile, "\t!db !constbyte\n", 0);
-
- return 1;
- }
- else
- return 0;
+ value *val;
+ unsigned int size = DCL_ELEM (type);
+
+ if (!s)
+ {
+ val = list2val (ilist);
+ /* if the value is a character string */
+ if (IS_ARRAY (val->type) && IS_CHAR (val->etype))
+ {
+ if (!size)
+ {
+ /* we have not been given a size, but now we know it */
+ size = strlen (SPEC_CVAL (val->etype).v_char) + 1;
+ /* but first check, if it's a flexible array */
+ if (sym && IS_STRUCT (sym->type))
+ sym->flexArrayLength = size;
+ else
+ DCL_ELEM (type) = size;
+ }
+
+ if (check && DCL_ELEM (val->type) > size)
+ werror (W_EXCESS_INITIALIZERS, "array of chars", sym->name, sym->lineDef);
+
+ printChar (oBuf, SPEC_CVAL (val->etype).v_char, size);
+
+ return 1;
+ }
+ else
+ return 0;
}
- else
- printChar (oFile, s,strlen(s)+1);
- return 1;
+ else
+ printChar (oBuf, s, strlen (s) + 1);
+ return 1;
}
/*-----------------------------------------------------------------*/
/* printIvalArray - generates code for array initialization */
/*-----------------------------------------------------------------*/
-void printIvalArray (symbol * sym, link * type, initList * ilist,
- FILE * oFile)
+void
+printIvalArray (symbol * sym, sym_link * type, initList * ilist,
+ struct dbuf_s * oBuf, bool check)
{
- initList *iloop;
- int lcnt = 0, size = 0;
-
+ value *val;
+ initList *iloop;
+ unsigned int size = 0;
+
+ if (ilist) {
/* take care of the special case */
/* array of characters can be init */
/* by a string */
- if (IS_CHAR (type->next))
- if (printIvalChar (type,
- (ilist->type == INIT_DEEP ? ilist->init.deep : ilist),
- oFile, SPEC_CVAL (sym->etype).v_char))
- return;
-
+ if (IS_CHAR (type->next)) {
+ val = list2val(ilist);
+ if (!val) {
+ werrorfl (ilist->filename, ilist->lineno, E_INIT_STRUCT, sym->name);
+ return;
+ }
+ if (!IS_LITERAL(val->etype)) {
+ werrorfl (ilist->filename, ilist->lineno, E_CONST_EXPECTED);
+ return;
+ }
+ if (printIvalChar (sym, type,
+ (ilist->type == INIT_DEEP ? ilist->init.deep : ilist),
+ oBuf, SPEC_CVAL (sym->etype).v_char, check))
+ return;
+ }
/* not the special case */
if (ilist->type != INIT_DEEP) {
- werror (E_INIT_STRUCT, sym->name);
- return;
- }
-
- iloop = ilist->init.deep;
- lcnt = DCL_ELEM (type);
-
- for (;;) {
- size++;
- printIval (sym, type->next, iloop, oFile);
- iloop = (iloop ? iloop->next : NULL);
-
-
- /* if not array limits given & we */
- /* are out of initialisers then */
- if (!DCL_ELEM (type) && !iloop)
- break;
-
- /* no of elements given and we */
- /* have generated for all of them */
- if (!--lcnt)
- break;
- }
-
- /* if we have not been given a size */
- if (!DCL_ELEM (type))
- DCL_ELEM (type) = size;
-
- return;
+ werrorfl (ilist->filename, ilist->lineno, E_INIT_STRUCT, sym->name);
+ return;
+ }
+
+ for (iloop=ilist->init.deep; iloop; iloop=iloop->next) {
+ if ((++size > DCL_ELEM(type)) && DCL_ELEM(type)) {
+ werrorfl (sym->fileDef, sym->lineDef, W_EXCESS_INITIALIZERS, "array", sym->name);
+ break;
+ }
+ printIval (sym, type->next, iloop, oBuf, TRUE);
+ }
+ }
+
+ if (DCL_ELEM(type)) {
+ // pad with zeros if needed
+ if (size<DCL_ELEM(type)) {
+ size = (DCL_ELEM(type) - size) * getSize(type->next);
+ while (size--) {
+ dbuf_tprintf (oBuf, "\t!db !constbyte\n", 0);
+ }
+ }
+ } else {
+ /* we have not been given a size, but now we know it */
+ /* but first check, if it's a flexible array */
+ if (IS_STRUCT (sym->type))
+ sym->flexArrayLength = size * getSize (type->next);
+ else
+ DCL_ELEM (type) = size;
+ }
+
+ return;
}
/*-----------------------------------------------------------------*/
/* printIvalFuncPtr - generate initial value for function pointers */
/*-----------------------------------------------------------------*/
-void printIvalFuncPtr (link * type, initList * ilist, FILE * oFile)
+void
+printIvalFuncPtr (sym_link * type, initList * ilist, struct dbuf_s * oBuf)
{
- value *val;
- int dLvl = 0;
-
+ value *val;
+ int dLvl = 0;
+
+ if (ilist)
val = list2val (ilist);
- /* check the types */
- if ((dLvl = checkType (val->type, type->next)) <= 0) {
- tfprintf(oFile, "\t!dw !constword\n", 0);
- return;
- }
-
- /* now generate the name */
- if (!val->sym) {
- if (port->use_dw_for_init)
- {
- tfprintf(oFile, "\t!dws\n", val->name);
- }
- else
- {
- printPointerType(oFile, val->name);
- }
+ else
+ val = valCastLiteral(type, 0.0);
+
+ if (!val) {
+ // an error has been thrown already
+ val = constCharVal (0);
+ }
+
+ if (IS_LITERAL(val->etype)) {
+ if (compareType(type, val->etype) == 0) {
+ werrorfl (ilist->filename, ilist->lineno, E_INCOMPAT_TYPES);
+ printFromToType (val->type, type);
}
- else
- if (port->use_dw_for_init)
- {
- tfprintf(oFile, "\t!dws\n", val->sym->rname);
- }
- else
- {
- printPointerType(oFile, val->sym->rname);
- }
-
+ printIvalCharPtr (NULL, type, val, oBuf);
return;
+ }
+
+ /* check the types */
+ if ((dLvl = compareType (val->type, type->next)) <= 0)
+ {
+ dbuf_tprintf (oBuf, "\t!dw !constword\n", 0);
+ return;
+ }
+
+ /* now generate the name */
+ if (!val->sym)
+ {
+ if (port->use_dw_for_init)
+ {
+ dbuf_tprintf (oBuf, "\t!dws\n", val->name);
+ }
+ else
+ {
+ printPointerType (oBuf, val->name);
+ }
+ }
+ else if (port->use_dw_for_init)
+ {
+ dbuf_tprintf (oBuf, "\t!dws\n", val->sym->rname);
+ }
+ else
+ {
+ printPointerType (oBuf, val->sym->rname);
+ }
+
+ return;
}
/*-----------------------------------------------------------------*/
/* printIvalCharPtr - generates initial values for character pointers */
/*-----------------------------------------------------------------*/
-int printIvalCharPtr (symbol * sym, link * type, value * val, FILE * oFile)
+int
+printIvalCharPtr (symbol * sym, sym_link * type, value * val, struct dbuf_s * oBuf)
{
- int size = 0;
-
- /* PENDING: this is _very_ mcs51 specific, including a magic
- number...
- It's also endin specific.
- */
- size = getSize (type);
-
- if (val->name && strlen(val->name)) {
- if (size == 1) /* This appears to be Z80 specific?? */
- {
- tfprintf(oFile,
- "\t!dbs\n", val->name);
- }
- else if (size == FPTRSIZE)
- {
- if (port->use_dw_for_init)
- {
- tfprintf(oFile, "\t!dws\n", val->name);
- }
- else
- {
- printPointerType(oFile, val->name);
- }
- }
- else if (size == GPTRSIZE)
- {
- /* PENDING: 0x02 or 0x%02x, CDATA? */
- printGPointerType(oFile, val->name,
- (IS_PTR(val->type) ? DCL_TYPE(val->type) :
- PTR_TYPE(SPEC_OCLS(val->etype))));
- }
- else
- {
- fprintf(stderr, "*** internal error: unknown size in "
- "printIvalCharPtr.\n");
- }
+ int size = 0;
+
+ /* PENDING: this is _very_ mcs51 specific, including a magic
+ number...
+ It's also endian specific.
+ */
+ size = getSize (type);
+
+ if (val->name && strlen (val->name))
+ {
+ if (size == 1) /* This appears to be Z80 specific?? */
+ {
+ dbuf_tprintf (oBuf,
+ "\t!dbs\n", val->name);
+ }
+ else if (size == FPTRSIZE)
+ {
+ if (port->use_dw_for_init)
+ {
+ dbuf_tprintf (oBuf, "\t!dws\n", val->name);
+ }
+ else
+ {
+ printPointerType (oBuf, val->name);
+ }
+ }
+ else if (size == GPTRSIZE)
+ {
+ int type;
+ if (IS_PTR (val->type)) {
+ type = DCL_TYPE (val->type);
+ } else {
+ type = PTR_TYPE (SPEC_OCLS (val->etype));
+ }
+ if (val->sym && val->sym->isstrlit) {
+ // this is a literal string
+ type=CPOINTER;
+ }
+ printGPointerType (oBuf, val->name, sym->name, type);
+ }
+ else
+ {
+ fprintf (stderr, "*** internal error: unknown size in "
+ "printIvalCharPtr.\n");
+ }
}
- else {
- /* What is this case? Are these pointers? */
- switch (size) {
- case 1:
- tfprintf(oFile, "\t!dbs\n", aopLiteral(val, 0));
- break;
- case 2:
- if (port->use_dw_for_init)
- tfprintf(oFile, "\t!dws\n", aopLiteralLong(val, 0, size));
- else
- tfprintf(oFile, "\t.byte %s,%s\n",
- aopLiteral(val, 0),aopLiteral(val, 1));
- break;
- case 3:
- /* PENDING: 0x02 or 0x%02x, CDATA? */
- fprintf(oFile, "\t.byte %s,%s,#0x02\n",
- aopLiteral (val, 0), aopLiteral (val, 1));
- break;
- default:
- assert(0);
- }
- }
-
-
- if (val->sym && val->sym->isstrlit)
- addSet (&statsg->syms, val->sym);
-
- return 1;
+ else
+ {
+ // these are literals assigned to pointers
+ switch (size)
+ {
+ case 1:
+ dbuf_tprintf (oBuf, "\t!dbs\n", aopLiteral (val, 0));
+ break;
+ case 2:
+ if (port->use_dw_for_init)
+ dbuf_tprintf (oBuf, "\t!dws\n", aopLiteralLong (val, 0, size));
+ else if (port->little_endian)
+ dbuf_tprintf (oBuf, "\t.byte %s,%s\n",
+ aopLiteral (val, 0), aopLiteral (val, 1));
+ else
+ dbuf_tprintf (oBuf, "\t.byte %s,%s\n",
+ aopLiteral (val, 1), aopLiteral (val, 0));
+ break;
+ case 3:
+ if (IS_GENPTR(type) && floatFromVal(val)!=0) {
+ // non-zero mcs51 generic pointer
+ werrorfl (sym->fileDef, sym->lineDef, E_LITERAL_GENERIC);
+ }
+ if (port->little_endian) {
+ dbuf_printf (oBuf, "\t.byte %s,%s,%s\n",
+ aopLiteral (val, 0),
+ aopLiteral (val, 1),
+ aopLiteral (val, 2));
+ } else {
+ dbuf_printf (oBuf, "\t.byte %s,%s,%s\n",
+ aopLiteral (val, 2),
+ aopLiteral (val, 1),
+ aopLiteral (val, 0));
+ }
+ break;
+ case 4:
+ if (IS_GENPTR(type) && floatFromVal(val)!=0) {
+ // non-zero ds390 generic pointer
+ werrorfl (sym->fileDef, sym->lineDef, E_LITERAL_GENERIC);
+ }
+ if (port->little_endian) {
+ dbuf_printf (oBuf, "\t.byte %s,%s,%s,%s\n",
+ aopLiteral (val, 0),
+ aopLiteral (val, 1),
+ aopLiteral (val, 2),
+ aopLiteral (val, 3));
+ } else {
+ dbuf_printf (oBuf, "\t.byte %s,%s,%s,%s\n",
+ aopLiteral (val, 3),
+ aopLiteral (val, 2),
+ aopLiteral (val, 1),
+ aopLiteral (val, 0));
+ }
+ break;
+ default:
+ assert (0);
+ }
+ }
+
+ if (!noInit && val->sym && val->sym->isstrlit && !isinSet(statsg->syms, val->sym)) {
+ addSet (&statsg->syms, val->sym);
+ }
+
+ return 1;
}
/*-----------------------------------------------------------------*/
/* printIvalPtr - generates initial value for pointers */
/*-----------------------------------------------------------------*/
-void printIvalPtr (symbol * sym, link * type, initList * ilist, FILE * oFile)
+void
+printIvalPtr (symbol * sym, sym_link * type, initList * ilist, struct dbuf_s * oBuf)
{
- value *val;
- int size;
-
- /* if deep then */
- if (ilist->type == INIT_DEEP)
- ilist = ilist->init.deep;
-
- /* function pointer */
- if (IS_FUNC (type->next)) {
- printIvalFuncPtr (type, ilist, oFile);
- return;
- }
-
- if (!(val = initPointer (ilist)))
- return ;
-
- /* if character pointer */
- if (IS_CHAR (type->next))
- if (printIvalCharPtr (sym, type, val, oFile))
- return;
-
- /* check the type */
- if (checkType (type, val->type) != 1)
- werror (E_INIT_WRONG);
-
- /* if val is literal */
- if (IS_LITERAL (val->etype)) {
- switch (getSize (type)) {
- case 1:
- tfprintf(oFile, "\t!db !constbyte\n", (unsigned int)floatFromVal(val) & 0xff);
- break;
- case 2:
- if (port->use_dw_for_init)
- tfprintf(oFile, "\t!dws\n", aopLiteralLong(val, 0, 2));
- else
- tfprintf (oFile, "\t.byte %s,%s\n", aopLiteral(val, 0),aopLiteral(val, 1));
- break;
- case 3:
- fprintf (oFile, "\t.byte %s,%s,#0x02\n",
- aopLiteral (val, 0), aopLiteral (val, 1));
- }
- return;
- }
-
-
- size = getSize (type);
-
- if (size == 1) /* Z80 specific?? */
+ value *val;
+ int size;
+
+ /* if deep then */
+ if (ilist && (ilist->type == INIT_DEEP))
+ ilist = ilist->init.deep;
+
+ /* function pointer */
+ if (IS_FUNC (type->next))
+ {
+ printIvalFuncPtr (type, ilist, oBuf);
+ return;
+ }
+
+ if (!(val = initPointer (ilist, type)))
+ return;
+
+ /* if character pointer */
+ if (IS_CHAR (type->next))
+ if (printIvalCharPtr (sym, type, val, oBuf))
+ return;
+
+ /* check the type */
+ if (compareType (type, val->type) == 0) {
+ werrorfl (ilist->filename, ilist->lineno, W_INIT_WRONG);
+ printFromToType (val->type, type);
+ }
+
+ /* if val is literal */
+ if (IS_LITERAL (val->etype))
+ {
+ switch (getSize (type))
+ {
+ case 1:
+ dbuf_tprintf (oBuf, "\t!db !constbyte\n", (unsigned int) ulFromVal (val) & 0xff);
+ break;
+ case 2:
+ if (port->use_dw_for_init)
+ dbuf_tprintf (oBuf, "\t!dws\n", aopLiteralLong (val, 0, 2));
+ else if (port->little_endian)
+ dbuf_tprintf (oBuf, "\t.byte %s,%s\n", aopLiteral (val, 0), aopLiteral (val, 1));
+ else
+ dbuf_tprintf (oBuf, "\t.byte %s,%s\n", aopLiteral (val, 1), aopLiteral (val, 0));
+ break;
+ case 3: // how about '390??
+ dbuf_printf (oBuf, "; generic printIvalPtr\n");
+ if (port->little_endian)
+ {
+ dbuf_printf (oBuf, "\t.byte %s,%s",
+ aopLiteral (val, 0), aopLiteral (val, 1));
+ }
+ else
+ {
+ dbuf_printf (oBuf, "\t.byte %s,%s",
+ aopLiteral (val, 1), aopLiteral (val, 0));
+ }
+ if (IS_GENPTR (val->type))
+ dbuf_printf (oBuf, ",%s\n", aopLiteral (val, 2));
+ else if (IS_PTR (val->type))
+ dbuf_printf (oBuf, ",#%x\n", pointerTypeToGPByte (DCL_TYPE (val->type), NULL, NULL));
+ else
+ dbuf_printf (oBuf, ",%s\n", aopLiteral (val, 2));
+ }
+ return;
+ }
+
+
+ size = getSize (type);
+
+ if (size == 1) /* Z80 specific?? */
{
- tfprintf (oFile, "\t!dbs\n", val->name);
+ dbuf_tprintf (oBuf, "\t!dbs\n", val->name);
}
- else if (size == FPTRSIZE)
+ else if (size == FPTRSIZE)
{
- tfprintf (oFile, "\t!dws\n", val->name);
+ if (port->use_dw_for_init) {
+ dbuf_tprintf (oBuf, "\t!dws\n", val->name);
+ } else {
+ printPointerType (oBuf, val->name);
+ }
}
- else if (size == GPTRSIZE)
+ else if (size == GPTRSIZE)
{
- printGPointerType(oFile, val->name,
- (IS_PTR(val->type) ? DCL_TYPE(val->type) :
- PTR_TYPE(SPEC_OCLS(val->etype))));
+ printGPointerType (oBuf, val->name, sym->name,
+ (IS_PTR (val->type) ? DCL_TYPE (val->type) :
+ PTR_TYPE (SPEC_OCLS (val->etype))));
}
- return;
+ return;
}
/*-----------------------------------------------------------------*/
/* printIval - generates code for initial value */
/*-----------------------------------------------------------------*/
-void printIval (symbol * sym, link * type, initList * ilist, FILE * oFile)
+void
+printIval (symbol * sym, sym_link * type, initList * ilist, struct dbuf_s * oBuf, bool check)
{
- if (!ilist)
- return;
-
- /* if structure then */
- if (IS_STRUCT (type)) {
- printIvalStruct (sym, type, ilist, oFile);
- return;
- }
-
- /* if this is a pointer */
- if (IS_PTR (type)) {
- printIvalPtr (sym, type, ilist, oFile);
- return;
- }
-
- /* if this is an array */
- if (IS_ARRAY (type)) {
- printIvalArray (sym, type, ilist, oFile);
- return;
- }
-
- /* if type is SPECIFIER */
- if (IS_SPEC (type)) {
- printIvalType (type, ilist, oFile);
- return;
+ sym_link *itype;
+
+ /* if structure then */
+ if (IS_STRUCT (type))
+ {
+ printIvalStruct (sym, type, ilist, oBuf);
+ return;
+ }
+
+ /* if this is an array */
+ if (IS_ARRAY (type))
+ {
+ printIvalArray (sym, type, ilist, oBuf, check);
+ return;
+ }
+
+ if (ilist)
+ {
+ // not an aggregate, ilist must be a node
+ if (ilist->type!=INIT_NODE) {
+ // or a 1-element list
+ if (ilist->init.deep->next) {
+ werrorfl (sym->fileDef, sym->lineDef, W_EXCESS_INITIALIZERS, "scalar",
+ sym->name);
+ } else {
+ ilist=ilist->init.deep;
+ }
+ }
+
+ // and the type must match
+ itype=ilist->init.node->ftype;
+
+ if (compareType(type, itype)==0) {
+ // special case for literal strings
+ if (IS_ARRAY (itype) && IS_CHAR (getSpec(itype)) &&
+ // which are really code pointers
+ IS_PTR(type) && DCL_TYPE(type)==CPOINTER) {
+ // no sweat
+ } else {
+ werrorfl (ilist->filename, ilist->lineno, E_TYPE_MISMATCH, "assignment", " ");
+ printFromToType(itype, type);
+ }
+ }
+ }
+
+ /* if this is a pointer */
+ if (IS_PTR (type))
+ {
+ printIvalPtr (sym, type, ilist, oBuf);
+ return;
+ }
+
+ /* if type is SPECIFIER */
+ if (IS_SPEC (type))
+ {
+ printIvalType (sym, type, ilist, oBuf);
+ return;
}
}
/*-----------------------------------------------------------------*/
/* emitStaticSeg - emitcode for the static segment */
/*-----------------------------------------------------------------*/
-void emitStaticSeg(memmap * map, FILE *out)
+void
+emitStaticSeg (memmap * map, struct dbuf_s * oBuf)
{
- symbol *sym;
-
- /* fprintf(map->oFile,"\t.area\t%s\n",map->sname); */
- if (!out)
- out = code->oFile;
-
- /* for all variables in this segment do */
- for (sym = setFirstItem (map->syms); sym;
- sym = setNextItem (map->syms)) {
-
- /* if it is "extern" then do nothing */
- if (IS_EXTERN (sym->etype))
- continue;
-
- /* if it is not static add it to the public
- table */
- if (!IS_STATIC (sym->etype))
- addSetHead (&publics, sym);
-
- /* print extra debug info if required */
- if ((options.debug || sym->level == 0) && !options.nodebug) {
-
- cdbSymbol(sym,cdbFile,FALSE,FALSE);
-
- if (!sym->level) { /* global */
- if (IS_STATIC(sym->etype))
- fprintf(out,"F%s$",moduleName); /* scope is file */
- else
- fprintf(out,"G$"); /* scope is global */
- }
- else
- /* symbol is local */
- fprintf(out,"L%s$",
- (sym->localof ? sym->localof->name : "-null-"));
- fprintf(out,"%s$%d$%d",sym->name,sym->level,sym->block);
- }
-
- /* if it has an absolute address */
- if (SPEC_ABSA (sym->etype)) {
- if ((options.debug || sym->level == 0) && !options.nodebug)
- fprintf(out," == 0x%04x\n", SPEC_ADDR (sym->etype));
-
- fprintf (out, "%s\t=\t0x%04x\n",
- sym->rname,
- SPEC_ADDR (sym->etype));
- }
- else {
- if ((options.debug || sym->level == 0) && !options.nodebug)
- fprintf(out," == .\n");
-
- /* if it has an initial value */
- if (sym->ival) {
- fprintf (out, "%s:\n", sym->rname);
- noAlloc++;
- resolveIvalSym (sym->ival);
- printIval (sym, sym->type, sym->ival, out);
- noAlloc--;
- }
- else {
- /* allocate space */
- fprintf (out, "%s:\n", sym->rname);
- /* special case for character strings */
- if (IS_ARRAY (sym->type) && IS_CHAR (sym->type->next) &&
- SPEC_CVAL (sym->etype).v_char)
- printChar (out,
- SPEC_CVAL (sym->etype).v_char,
- strlen(SPEC_CVAL (sym->etype).v_char)+1);
- else
- tfprintf(out, "\t!ds\n", (unsigned int)getSize (sym->type)& 0xffff);
- }
- }
+ symbol *sym;
+
+ /* fprintf(out, "\t.area\t%s\n", map->sname); */
+
+ /* for all variables in this segment do */
+ for (sym = setFirstItem (map->syms); sym;
+ sym = setNextItem (map->syms))
+ {
+
+ /* if it is "extern" then do nothing */
+ if (IS_EXTERN (sym->etype))
+ continue;
+
+ /* if it is not static add it to the public table */
+ if (!IS_STATIC (sym->etype))
+ {
+ addSetHead (&publics, sym);
+ }
+
+ /* print extra debug info if required */
+ if (options.debug)
+ {
+ if (!sym->level)
+ { /* global */
+ if (IS_STATIC (sym->etype))
+ dbuf_printf (oBuf, "F%s$", moduleName); /* scope is file */
+ else
+ dbuf_printf (oBuf, "G$"); /* scope is global */
+ }
+ else
+ {
+ /* symbol is local */
+ dbuf_printf (oBuf, "L%s$",
+ (sym->localof ? sym->localof->name : "-null-"));
+ }
+ dbuf_printf (oBuf, "%s$%d$%d", sym->name, sym->level, sym->block);
+ }
+
+ /* if it has an absolute address and no initializer */
+ if (SPEC_ABSA (sym->etype) && !sym->ival)
+ {
+ if (options.debug)
+ dbuf_printf (oBuf, " == 0x%04x\n", SPEC_ADDR (sym->etype));
+
+ dbuf_printf (oBuf, "%s\t=\t0x%04x\n",
+ sym->rname,
+ SPEC_ADDR (sym->etype));
+ }
+ else
+ {
+ if (options.debug)
+ dbuf_printf (oBuf, " == .\n");
+
+ /* if it has an initial value */
+ if (sym->ival)
+ {
+ if (SPEC_ABSA (sym->etype))
+ {
+ dbuf_tprintf (oBuf, "\t!org\n", SPEC_ADDR (sym->etype));
+ }
+ dbuf_printf (oBuf, "%s:\n", sym->rname);
+ ++noAlloc;
+ resolveIvalSym (sym->ival, sym->type);
+ printIval (sym, sym->type, sym->ival, oBuf, map != xinit);
+ --noAlloc;
+ /* if sym is a simple string and sym->ival is a string,
+ WE don't need it anymore */
+ if (IS_ARRAY(sym->type) && IS_CHAR(sym->type->next) &&
+ IS_AST_SYM_VALUE(list2expr(sym->ival)) &&
+ list2val(sym->ival)->sym->isstrlit) {
+ freeStringSymbol(list2val(sym->ival)->sym);
+ }
+ }
+ else {
+ /* allocate space */
+ int size = getSize (sym->type);
+
+ if (size==0) {
+ werrorfl (sym->fileDef, sym->lineDef, E_UNKNOWN_SIZE,sym->name);
+ }
+ dbuf_printf (oBuf, "%s:\n", sym->rname);
+ /* special case for character strings */
+ if (IS_ARRAY (sym->type) && IS_CHAR (sym->type->next) &&
+ SPEC_CVAL (sym->etype).v_char)
+ printChar (oBuf,
+ SPEC_CVAL (sym->etype).v_char,
+ size);
+ else
+ dbuf_tprintf (oBuf, "\t!ds\n", (unsigned int) size & 0xffff);
+ }
+ }
}
}
/*-----------------------------------------------------------------*/
/* emitMaps - emits the code for the data portion the code */
/*-----------------------------------------------------------------*/
-void emitMaps ()
+void
+emitMaps (void)
{
- /* no special considerations for the following
- data, idata & bit & xdata */
- emitRegularMap (data, TRUE, TRUE);
- emitRegularMap (idata, TRUE,TRUE);
- emitRegularMap (bit, TRUE,FALSE);
- emitRegularMap (xdata, TRUE,TRUE);
- emitRegularMap (sfr, FALSE,FALSE);
- emitRegularMap (sfrbit, FALSE,FALSE);
- emitRegularMap (home, TRUE,FALSE);
- emitRegularMap (code, TRUE,FALSE);
-
- emitStaticSeg (statsg, code->oFile);
+ int publicsfr = TARGET_IS_MCS51; /* Ideally, this should be true for all */
+ /* ports but let's be conservative - EEP */
+
+ inInitMode++;
+ /* no special considerations for the following
+ data, idata & bit & xdata */
+ emitRegularMap (data, TRUE, TRUE);
+ emitRegularMap (idata, TRUE, TRUE);
+ emitRegularMap (d_abs, TRUE, TRUE);
+ emitRegularMap (i_abs, TRUE, TRUE);
+ emitRegularMap (bit, TRUE, TRUE);
+ emitRegularMap (pdata, TRUE, TRUE);
+ emitRegularMap (xdata, TRUE, TRUE);
+ emitRegularMap (x_abs, TRUE, TRUE);
+ if (port->genXINIT) {
+ emitRegularMap (xidata, TRUE, TRUE);
+ }
+ emitRegularMap (sfr, publicsfr, FALSE);
+ emitRegularMap (sfrbit, publicsfr, FALSE);
+ emitRegularMap (home, TRUE, FALSE);
+ emitRegularMap (code, TRUE, FALSE);
+
+ if (options.const_seg) {
+ dbuf_tprintf (&code->oBuf, "\t!area\n", options.const_seg);
+ }
+ emitStaticSeg (statsg, &code->oBuf);
+ if (port->genXINIT) {
+ dbuf_tprintf (&code->oBuf, "\t!area\n", xinit->sname);
+ emitStaticSeg (xinit, &code->oBuf);
+ }
+ dbuf_tprintf (&code->oBuf, "\t!area\n", c_abs->sname);
+ emitStaticSeg (c_abs, &code->oBuf);
+ inInitMode--;
}
/*-----------------------------------------------------------------*/
/* flushStatics - flush all currently defined statics out to file */
/* and delete. Temporary function */
/*-----------------------------------------------------------------*/
-void flushStatics(void)
+void
+flushStatics (void)
{
- emitStaticSeg(statsg, codeOutFile);
- statsg->syms = NULL;
+ emitStaticSeg (statsg, codeOutBuf);
+ statsg->syms = NULL;
}
/*-----------------------------------------------------------------*/
/* createInterruptVect - creates the interrupt vector */
/*-----------------------------------------------------------------*/
-void createInterruptVect (FILE * vFile)
+void
+createInterruptVect (struct dbuf_s *vBuf)
{
- int i = 0;
- mainf = newSymbol ("main", 0);
- mainf->block = 0;
-
- /* only if the main function exists */
- if (!(mainf = findSymWithLevel (SymbolTab, mainf))) {
- if (!options.cc_only)
- werror(E_NO_MAIN);
- return;
- }
-
- /* if the main is only a prototype ie. no body then do nothing */
- if (!mainf->fbody) {
- /* if ! compile only then main function should be present */
- if (!options.cc_only)
- werror(E_NO_MAIN);
- return;
- }
-
- tfprintf(vFile, "\t!areacode\n", CODE_NAME);
- fprintf (vFile, "__interrupt_vect:\n");
-
-
- if (!port->genIVT || ! (port->genIVT(vFile, interrupts, maxInterrupts)))
+ mainf = newSymbol ("main", 0);
+ mainf->block = 0;
+
+ /* only if the main function exists */
+ if (!(mainf = findSymWithLevel (SymbolTab, mainf)))
{
- /* "generic" interrupt table header (if port doesn't specify one).
- *
- * Look suspiciously like 8051 code to me...
- */
-
- fprintf (vFile, "\tljmp\t__sdcc_gsinit_startup\n");
-
-
- /* now for the other interrupts */
- for (; i < maxInterrupts; i++) {
- if (interrupts[i])
- fprintf (vFile, "\tljmp\t%s\n\t.ds\t5\n", interrupts[i]->rname);
- else
- fprintf (vFile, "\treti\n\t.ds\t7\n");
- }
+ if (!options.cc_only && !noAssemble && !options.c1mode)
+ werror (E_NO_MAIN);
+ return;
+ }
+
+ /* if the main is only a prototype ie. no body then do nothing */
+ if (!IFFUNC_HASBODY(mainf->type))
+ {
+ /* if ! compile only then main function should be present */
+ if (!options.cc_only && !noAssemble)
+ werror (E_NO_MAIN);
+ return;
+ }
+
+ dbuf_tprintf (vBuf, "\t!areacode\n", HOME_NAME);
+ dbuf_printf (vBuf, "__interrupt_vect:\n");
+
+
+ if (!port->genIVT || !(port->genIVT (vBuf, interrupts, maxInterrupts)))
+ {
+ /* There's no such thing as a "generic" interrupt table header. */
+ wassert(0);
}
}
char *iComments1 =
{
- ";--------------------------------------------------------\n"
- "; File Created by SDCC : FreeWare ANSI-C Compiler\n"};
+ ";--------------------------------------------------------\n"
+ "; File Created by SDCC : free open source ANSI-C Compiler\n"};
char *iComments2 =
{
- ";--------------------------------------------------------\n"};
+ ";--------------------------------------------------------\n"};
/*-----------------------------------------------------------------*/
/* initialComments - puts in some initial comments */
/*-----------------------------------------------------------------*/
-void initialComments (FILE * afile)
+void
+initialComments (FILE * afile)
{
- time_t t;
- time(&t);
- fprintf (afile, "%s", iComments1);
- fprintf (afile, "; Version %s %s\n", VersionString,asctime(localtime(&t)));
- fprintf (afile, "%s", iComments2);
+ time_t t;
+ time (&t);
+ fprintf (afile, "%s", iComments1);
+ fprintf (afile, "; Version " SDCC_VERSION_STR " #%s (%s) (%s)\n",
+ getBuildNumber(), getBuildDate(), getBuildEnvironment());
+ fprintf (afile, "; This file was generated %s", asctime (localtime (&t)));
+ fprintf (afile, "%s", iComments2);
}
/*-----------------------------------------------------------------*/
/* printPublics - generates .global for publics */
/*-----------------------------------------------------------------*/
-void printPublics (FILE * afile)
+void
+printPublics (FILE * afile)
{
- symbol *sym;
-
- fprintf (afile, "%s", iComments2);
- fprintf (afile, "; Public variables in this module\n");
- fprintf (afile, "%s", iComments2);
-
- for (sym = setFirstItem (publics); sym;
- sym = setNextItem (publics))
- tfprintf(afile, "\t!global\n", sym->rname);
+ symbol *sym;
+
+ fprintf (afile, "%s", iComments2);
+ fprintf (afile, "; Public variables in this module\n");
+ fprintf (afile, "%s", iComments2);
+
+ for (sym = setFirstItem (publics); sym;
+ sym = setNextItem (publics))
+ tfprintf (afile, "\t!global\n", sym->rname);
}
/*-----------------------------------------------------------------*/
/* printExterns - generates .global for externs */
/*-----------------------------------------------------------------*/
-void printExterns (FILE * afile)
+void
+printExterns (FILE * afile)
{
- symbol *sym;
-
- fprintf (afile, "%s", iComments2);
- fprintf (afile, "; Externals used\n");
- fprintf (afile, "%s", iComments2);
-
- for (sym = setFirstItem (externs); sym;
- sym = setNextItem (externs))
- tfprintf(afile, "\t!global\n", sym->rname);
+ symbol *sym;
+
+ fprintf (afile, "%s", iComments2);
+ fprintf (afile, "; Externals used\n");
+ fprintf (afile, "%s", iComments2);
+
+ for (sym = setFirstItem (externs); sym;
+ sym = setNextItem (externs))
+ tfprintf (afile, "\t!extern\n", sym->rname);
}
/*-----------------------------------------------------------------*/
/* emitOverlay - will emit code for the overlay stuff */
/*-----------------------------------------------------------------*/
-static void emitOverlay(FILE *afile)
+static void
+emitOverlay (struct dbuf_s * aBuf)
{
- set *ovrset;
-
- if (!elementsInSet(ovrSetSets))
- tfprintf(afile,"\t!area\n", port->mem.overlay_name);
-
- /* for each of the sets in the overlay segment do */
- for (ovrset = setFirstItem(ovrSetSets); ovrset;
- ovrset = setNextItem(ovrSetSets)) {
-
- symbol *sym ;
-
- if (elementsInSet(ovrset)) {
- /* this dummy area is used to fool the assembler
- otherwise the assembler will append each of these
- declarations into one chunk and will not overlay
- sad but true */
- fprintf(afile,"\t.area _DUMMY\n");
- /* output the area informtion */
- fprintf(afile,"\t.area\t%s\n", port->mem.overlay_name); /* MOF */
- }
-
- for (sym = setFirstItem(ovrset); sym;
- sym = setNextItem(ovrset)) {
-
- /* if extern then add it to the publics tabledo nothing */
- if (IS_EXTERN (sym->etype))
- continue;
-
- /* if allocation required check is needed
- then check if the symbol really requires
- allocation only for local variables */
- if (!IS_AGGREGATE(sym->type) &&
- !(sym->_isparm && !IS_REGPARM(sym->etype))
- && !sym->allocreq && sym->level)
- continue ;
-
- /* if global variable & not static or extern
- and addPublics allowed then add it to the public set */
- if ((sym->_isparm && !IS_REGPARM(sym->etype))
- && !IS_STATIC (sym->etype))
- addSetHead (&publics, sym);
-
- /* if extern then do nothing or is a function
- then do nothing */
- if (IS_FUNC (sym->type))
- continue;
-
- /* print extra debug info if required */
- if ((options.debug || sym->level == 0) && !options.nodebug) {
-
- cdbSymbol(sym,cdbFile,FALSE,FALSE);
-
- if (!sym->level) { /* global */
- if (IS_STATIC(sym->etype))
- fprintf(afile,"F%s$",moduleName); /* scope is file */
- else
- fprintf(afile,"G$"); /* scope is global */
- }
- else
- /* symbol is local */
- fprintf(afile,"L%s$",
- (sym->localof ? sym->localof->name : "-null-"));
- fprintf(afile,"%s$%d$%d",sym->name,sym->level,sym->block);
- }
-
- /* if is has an absolute address then generate
- an equate for this no need to allocate space */
- if (SPEC_ABSA (sym->etype)) {
-
- if ((options.debug || sym->level == 0) && !options.nodebug)
- fprintf (afile," == 0x%04x\n",SPEC_ADDR (sym->etype));
-
- fprintf (afile, "%s\t=\t0x%04x\n",
- sym->rname,
- SPEC_ADDR (sym->etype));
- }
- else {
- if ((options.debug || sym->level == 0) && !options.nodebug)
- fprintf(afile,"==.\n");
-
- /* allocate space */
- tfprintf(afile, "!labeldef\n", sym->rname);
- tfprintf(afile, "\t!ds\n", (unsigned int)getSize (sym->type) & 0xffff);
- }
-
- }
+ set *ovrset;
+
+ if (!elementsInSet (ovrSetSets))
+ dbuf_tprintf (aBuf, "\t!area\n", port->mem.overlay_name);
+
+ /* for each of the sets in the overlay segment do */
+ for (ovrset = setFirstItem (ovrSetSets); ovrset;
+ ovrset = setNextItem (ovrSetSets))
+ {
+
+ symbol *sym;
+
+ if (elementsInSet (ovrset))
+ {
+ /* output the area informtion */
+ dbuf_printf (aBuf, "\t.area\t%s\n", port->mem.overlay_name); /* MOF */
+ }
+
+ for (sym = setFirstItem (ovrset); sym;
+ sym = setNextItem (ovrset))
+ {
+ /* if extern then it is in the publics table: do nothing */
+ if (IS_EXTERN (sym->etype))
+ continue;
+
+ /* if allocation required check is needed
+ then check if the symbol really requires
+ allocation only for local variables */
+ if (!IS_AGGREGATE (sym->type) &&
+ !(sym->_isparm && !IS_REGPARM (sym->etype))
+ && !sym->allocreq && sym->level)
+ continue;
+
+ /* if global variable & not static or extern
+ and addPublics allowed then add it to the public set */
+ if ((sym->_isparm && !IS_REGPARM (sym->etype))
+ && !IS_STATIC (sym->etype))
+ {
+ addSetHead (&publics, sym);
+ }
+
+ /* if extern then do nothing or is a function
+ then do nothing */
+ if (IS_FUNC (sym->type))
+ continue;
+
+ /* print extra debug info if required */
+ if (options.debug)
+ {
+ if (!sym->level)
+ { /* global */
+ if (IS_STATIC (sym->etype))
+ dbuf_printf (aBuf, "F%s$", moduleName); /* scope is file */
+ else
+ dbuf_printf (aBuf, "G$"); /* scope is global */
+ }
+ else
+ /* symbol is local */
+ dbuf_printf (aBuf, "L%s$",
+ (sym->localof ? sym->localof->name : "-null-"));
+ dbuf_printf (aBuf, "%s$%d$%d", sym->name, sym->level, sym->block);
+ }
+
+ /* if is has an absolute address then generate
+ an equate for this no need to allocate space */
+ if (SPEC_ABSA (sym->etype))
+ {
+
+ if (options.debug)
+ dbuf_printf (aBuf, " == 0x%04x\n", SPEC_ADDR (sym->etype));
+
+ dbuf_printf (aBuf, "%s\t=\t0x%04x\n",
+ sym->rname,
+ SPEC_ADDR (sym->etype));
+ }
+ else
+ {
+ int size = getSize(sym->type);
+
+ if (size==0) {
+ werrorfl (sym->fileDef, sym->lineDef, E_UNKNOWN_SIZE);
+ }
+ if (options.debug)
+ dbuf_printf (aBuf, "==.\n");
+
+ /* allocate space */
+ dbuf_tprintf (aBuf, "!labeldef\n", sym->rname);
+ dbuf_tprintf (aBuf, "\t!ds\n", (unsigned int) getSize (sym->type) & 0xffff);
+ }
+
+ }
}
}
/*-----------------------------------------------------------------*/
/* glue - the final glue that hold the whole thing together */
/*-----------------------------------------------------------------*/
-void glue ()
+void
+glue (void)
{
- FILE *vFile;
- FILE *asmFile;
- FILE *ovrFile = tempfile();
-
- addSetHead(&tmpfileSet,ovrFile);
- /* print the global struct definitions */
- if (options.debug && !options.nodebug)
- cdbStructBlock (0,cdbFile);
-
- vFile = tempfile();
- /* PENDING: this isnt the best place but it will do */
- if (port->general.glue_up_main) {
- /* create the interrupt vector table */
- createInterruptVect (vFile);
- }
-
- addSetHead(&tmpfileSet,vFile);
-
- /* emit code for the all the variables declared */
- emitMaps ();
- /* do the overlay segments */
- emitOverlay(ovrFile);
-
- /* now put it all together into the assembler file */
- /* create the assembler file name */
-
- if (!options.c1mode) {
- sprintf (buffer, srcFileName);
- strcat (buffer, ".asm");
+ struct dbuf_s vBuf;
+ struct dbuf_s ovrBuf;
+ FILE *asmFile;
+ int mcs51_like;
+
+ dbuf_init (&vBuf, 4096);
+ dbuf_init (&ovrBuf, 4096);
+
+ mcs51_like = (port->general.glue_up_main &&
+ (TARGET_IS_MCS51 || TARGET_IS_DS390 || TARGET_IS_XA51 || TARGET_IS_DS400));
+
+ /* print the global struct definitions */
+ if (options.debug)
+ cdbStructBlock (0);
+
+ /* PENDING: this isn't the best place but it will do */
+ if (port->general.glue_up_main)
+ {
+ /* create the interrupt vector table */
+ createInterruptVect (&vBuf);
}
- else {
- strcpy(buffer, options.out_name);
+
+ /* emit code for the all the variables declared */
+ emitMaps ();
+ /* do the overlay segments */
+ emitOverlay (&ovrBuf);
+
+ outputDebugSymbols ();
+
+ /* now put it all together into the assembler file */
+ /* create the assembler file name */
+
+ /* -o option overrides default name? */
+ if ((noAssemble || options.c1mode) && fullDstFileName)
+ {
+ strncpyz (scratchFileName, fullDstFileName, PATH_MAX);
+ }
+ else
+ {
+ strncpyz (scratchFileName, dstFileName, PATH_MAX);
+ strncatz (scratchFileName, port->assembler.file_ext, PATH_MAX);
}
- if (!(asmFile = fopen (buffer, "w"))) {
- werror (E_FILE_OPEN_ERR, buffer);
- exit (1);
+ if (!(asmFile = fopen (scratchFileName, "w")))
+ {
+ werror (E_FILE_OPEN_ERR, scratchFileName);
+ exit (EXIT_FAILURE);
}
-
- /* initial comments */
- initialComments (asmFile);
-
- /* print module name */
- tfprintf(asmFile, "\t!module\n", moduleName);
- tfprintf(asmFile, "\t!fileprelude\n");
- /* Let the port generate any global directives, etc. */
- if (port->genAssemblerPreamble)
+ /* initial comments */
+ initialComments (asmFile);
+
+ /* print module name */
+ tfprintf (asmFile, "\t!module\n", moduleName);
+ if (mcs51_like)
{
- port->genAssemblerPreamble(asmFile);
- }
-
- /* print the global variables in this module */
- printPublics (asmFile);
- if (port->assembler.externGlobal)
- printExterns (asmFile);
-
- /* copy the sfr segment */
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; special function registers\n");
- fprintf (asmFile, "%s", iComments2);
- copyFile (asmFile, sfr->oFile);
-
- /* copy the sbit segment */
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; special function bits \n");
- fprintf (asmFile, "%s", iComments2);
- copyFile (asmFile, sfrbit->oFile);
-
- /* copy the data segment */
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; internal ram data\n");
- fprintf (asmFile, "%s", iComments2);
- copyFile (asmFile, data->oFile);
-
-
- /* create the overlay segments */
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; overlayable items in internal ram \n");
- fprintf (asmFile, "%s", iComments2);
- copyFile (asmFile, ovrFile);
-
- /* create the stack segment MOF */
- if (mainf && mainf->fbody) {
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; Stack segment in internal ram \n");
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "\t.area\tSSEG\t(DATA)\n"
- "__start__stack:\n\t.ds\t1\n\n");
- }
-
- /* create the idata segment */
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; indirectly addressable internal ram data\n");
- fprintf (asmFile, "%s", iComments2);
- copyFile (asmFile, idata->oFile);
-
- /* copy the bit segment */
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; bit data\n");
- fprintf (asmFile, "%s", iComments2);
- copyFile (asmFile, bit->oFile);
-
- /* if external stack then reserve space of it */
- if (mainf && mainf->fbody && options.useXstack ) {
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; external stack \n");
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile,"\t.area XSEG (XDATA)\n"); /* MOF */
- fprintf (asmFile,"\t.ds 256\n");
- }
-
-
- /* copy xtern ram data */
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; external ram data\n");
- fprintf (asmFile, "%s", iComments2);
- copyFile (asmFile, xdata->oFile);
-
- /* copy the interrupt vector table */
- if (mainf && mainf->fbody) {
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; interrupt vector \n");
- fprintf (asmFile, "%s", iComments2);
- copyFile (asmFile, vFile);
- }
-
- /* copy global & static initialisations */
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; global & static initialisations\n");
- fprintf (asmFile, "%s", iComments2);
-
- /* Everywhere we generate a reference to the static_name area,
- * (which is currently only here), we immediately follow it with a
- * definition of the post_static_name area. This guarantees that
- * the post_static_name area will immediately follow the static_name
- * area.
- */
- tfprintf(asmFile, "\t!area\n", port->mem.static_name); /* MOF */
- tfprintf(asmFile, "\t!area\n", port->mem.post_static_name);
- tfprintf(asmFile, "\t!area\n", port->mem.static_name);
-
- if (mainf && mainf->fbody) {
- fprintf (asmFile,"__sdcc_gsinit_startup:\n");
- /* if external stack is specified then the
- higher order byte of the xdatalocation is
- going into P2 and the lower order going into
- spx */
- if (options.useXstack) {
- fprintf(asmFile,"\tmov\tP2,#0x%02x\n",
- (((unsigned int)options.xdata_loc) >> 8) & 0xff);
- fprintf(asmFile,"\tmov\t_spx,#0x%02x\n",
- (unsigned int)options.xdata_loc & 0xff);
- }
-
- /* initialise the stack pointer */
- /* if the user specified a value then use it */
- if (options.stack_loc)
- fprintf(asmFile,"\tmov\tsp,#%d\n",options.stack_loc);
- else
- /* no: we have to compute it */
- if (!options.stackOnData && maxRegBank <= 3)
- fprintf(asmFile,"\tmov\tsp,#%d\n",((maxRegBank + 1) * 8) -1);
- else
- fprintf(asmFile,"\tmov\tsp,#__start__stack\n"); /* MOF */
-
- fprintf (asmFile,"\tlcall\t__sdcc_external_startup\n");
- fprintf (asmFile,"\tmov\ta,dpl\n");
- fprintf (asmFile,"\tjz\t__sdcc_init_data\n");
- fprintf (asmFile,"\tljmp\t__sdcc_program_startup\n");
- fprintf (asmFile,"__sdcc_init_data:\n");
-
- }
- copyFile (asmFile, statsg->oFile);
-
- if (port->general.glue_up_main && mainf && mainf->fbody)
+ fprintf (asmFile, "\t.optsdcc -m%s", port->target);
+
+ switch(options.model)
+ {
+ case MODEL_SMALL: fprintf (asmFile, " --model-small"); break;
+ case MODEL_COMPACT: fprintf (asmFile, " --model-compact"); break;
+ case MODEL_MEDIUM: fprintf (asmFile, " --model-medium"); break;
+ case MODEL_LARGE: fprintf (asmFile, " --model-large"); break;
+ case MODEL_FLAT24: fprintf (asmFile, " --model-flat24"); break;
+ case MODEL_PAGE0: fprintf (asmFile, " --model-page0"); break;
+ default: break;
+ }
+ /*if(options.stackAuto) fprintf (asmFile, " --stack-auto");*/
+ if(options.useXstack) fprintf (asmFile, " --xstack");
+ /*if(options.intlong_rent) fprintf (asmFile, " --int-long-rent");*/
+ /*if(options.float_rent) fprintf (asmFile, " --float-rent");*/
+ if(options.noRegParams) fprintf (asmFile, " --no-reg-params");
+ if(options.parms_in_bank1) fprintf (asmFile, " --parms-in-bank1");
+ fprintf (asmFile, "\n");
+ }
+ else if (TARGET_Z80_LIKE || TARGET_IS_HC08)
{
- /* This code is generated in the post-static area.
- * This area is guaranteed to follow the static area
- * by the ugly shucking and jiving about 20 lines ago.
- */
- tfprintf(asmFile, "\t!area\n", port->mem.post_static_name);
- fprintf (asmFile,"\tljmp\t__sdcc_program_startup\n");
- }
-
- fprintf (asmFile,
- "%s"
- "; Home\n"
- "%s", iComments2, iComments2);
- tfprintf(asmFile, "\t!areahome\n", HOME_NAME);
- copyFile (asmFile, home->oFile);
-
- /* copy over code */
- fprintf (asmFile, "%s", iComments2);
- fprintf (asmFile, "; code\n");
- fprintf (asmFile, "%s", iComments2);
- tfprintf(asmFile, "\t!areacode\n", CODE_NAME);
- if (mainf && mainf->fbody) {
-
- /* entry point @ start of CSEG */
- fprintf (asmFile,"__sdcc_program_startup:\n");
-
- /* put in the call to main */
- fprintf(asmFile,"\tlcall\t_main\n");
- if (options.mainreturn) {
-
- fprintf(asmFile,";\treturn from main ; will return to caller\n");
- fprintf(asmFile,"\tret\n");
-
- } else {
-
- fprintf(asmFile,";\treturn from main will lock up\n");
- fprintf(asmFile,"\tsjmp .\n");
- }
- }
- copyFile (asmFile, code->oFile);
-
- fclose (asmFile);
- applyToSet(tmpfileSet,closeTmpFiles);
- applyToSet(tmpfileNameSet, rmTmpFiles);
-}
+ fprintf (asmFile, "\t.optsdcc -m%s\n", port->target);
+ }
-/** Creates a temporary file a'la tmpfile which avoids the bugs
- in cygwin wrt c:\tmp.
- Scans, in order: TMP, TEMP, TMPDIR, else uses tmpfile().
-*/
-FILE *tempfile(void)
-{
- const char *tmpdir = NULL;
- if (getenv("TMP"))
- tmpdir = getenv("TMP");
- else if (getenv("TEMP"))
- tmpdir = getenv("TEMP");
- else if (getenv("TMPDIR"))
- tmpdir = getenv("TMPDIR");
- if (tmpdir) {
- char *name = tempnam(tmpdir, "sdcc");
- if (name) {
- FILE *fp = fopen(name, "w+b");
- if (fp)
- {
- addSetHead(&tmpfileNameSet, name);
- }
- return fp;
- }
- return NULL;
- }
- return tmpfile();
-}
+ tfprintf (asmFile, "\t!fileprelude\n");
-char *gc_strdup(const char *s)
-{
- char *ret;
- ALLOC_ATOMIC(ret, strlen(s)+1);
- strcpy(ret, s);
- return ret;
+ /* Let the port generate any global directives, etc. */
+ if (port->genAssemblerPreamble)
+ {
+ port->genAssemblerPreamble (asmFile);
+ }
+
+ /* print the global variables in this module */
+ printPublics (asmFile);
+ if (port->assembler.externGlobal)
+ printExterns (asmFile);
+
+ if (( mcs51_like )
+ ||( TARGET_IS_Z80 )) /*.p.t.20030924 need to output SFR table for Z80 as well */
+ {
+ /* copy the sfr segment */
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; special function registers\n");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&sfr->oBuf, asmFile);
+ }
+
+ if (mcs51_like)
+ {
+ /* copy the sbit segment */
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; special function bits\n");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&sfrbit->oBuf, asmFile);
+
+ /*JCF: Create the areas for the register banks*/
+ if (RegBankUsed[0] || RegBankUsed[1] || RegBankUsed[2] || RegBankUsed[3])
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; overlayable register banks\n");
+ fprintf (asmFile, "%s", iComments2);
+ if (RegBankUsed[0])
+ fprintf (asmFile, "\t.area REG_BANK_0\t(REL,OVR,DATA)\n\t.ds 8\n");
+ if (RegBankUsed[1] || options.parms_in_bank1)
+ fprintf (asmFile, "\t.area REG_BANK_1\t(REL,OVR,DATA)\n\t.ds 8\n");
+ if (RegBankUsed[2])
+ fprintf (asmFile, "\t.area REG_BANK_2\t(REL,OVR,DATA)\n\t.ds 8\n");
+ if (RegBankUsed[3])
+ fprintf (asmFile, "\t.area REG_BANK_3\t(REL,OVR,DATA)\n\t.ds 8\n");
+ }
+ if (BitBankUsed)
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; overlayable bit register bank\n");
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "\t.area BIT_BANK\t(REL,OVR,DATA)\n");
+ fprintf (asmFile, "bits:\n\t.ds 1\n");
+ fprintf (asmFile, "\tb0 = bits[0]\n");
+ fprintf (asmFile, "\tb1 = bits[1]\n");
+ fprintf (asmFile, "\tb2 = bits[2]\n");
+ fprintf (asmFile, "\tb3 = bits[3]\n");
+ fprintf (asmFile, "\tb4 = bits[4]\n");
+ fprintf (asmFile, "\tb5 = bits[5]\n");
+ fprintf (asmFile, "\tb6 = bits[6]\n");
+ fprintf (asmFile, "\tb7 = bits[7]\n");
+ }
+ }
+
+ /* copy the data segment */
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; %s ram data\n", mcs51_like?"internal":"");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&data->oBuf, asmFile);
+
+
+ /* create the overlay segments */
+ if (overlay)
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; overlayable items in %s ram \n", mcs51_like?"internal":"");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&ovrBuf, asmFile);
+ }
+
+ /* create the stack segment MOF */
+ if (mainf && IFFUNC_HASBODY (mainf->type))
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; Stack segment in internal ram \n");
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "\t.area\tSSEG\t(DATA)\n"
+ "__start__stack:\n\t.ds\t1\n\n");
+ }
+
+ /* create the idata segment */
+ if ((idata) && (mcs51_like))
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; indirectly addressable internal ram data\n");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&idata->oBuf, asmFile);
+ }
+
+ /* create the absolute idata/data segment */
+ if ((i_abs) && (mcs51_like))
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; absolute internal ram data\n");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&d_abs->oBuf, asmFile);
+ dbuf_write_and_destroy (&i_abs->oBuf, asmFile);
+ }
+
+ /* copy the bit segment */
+ if (mcs51_like)
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; bit data\n");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&bit->oBuf, asmFile);
+ }
+
+ /* copy paged external ram data */
+ if (mcs51_like)
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; paged external ram data\n");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&pdata->oBuf, asmFile);
+ }
+
+ /* if external stack then reserve space for it */
+ if (mainf && IFFUNC_HASBODY (mainf->type) && options.useXstack)
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; external stack \n");
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "\t.area XSTK (PAG,XDATA)\n"
+ "__start__xstack:\n\t.ds\t1\n\n");
+ }
+
+ /* copy external ram data */
+ if (mcs51_like)
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; external ram data\n");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&xdata->oBuf, asmFile);
+ }
+
+ /* create the absolute xdata segment */
+ if (mcs51_like || TARGET_IS_HC08)
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; absolute external ram data\n");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&x_abs->oBuf, asmFile);
+ }
+
+ /* copy external initialized ram data */
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; external initialized ram data\n");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&xidata->oBuf, asmFile);
+
+ /* If the port wants to generate any extra areas, let it do so. */
+ if (port->extraAreas.genExtraAreaDeclaration)
+ {
+ port->extraAreas.genExtraAreaDeclaration(asmFile,
+ mainf && IFFUNC_HASBODY(mainf->type));
+ }
+
+ /* copy the interrupt vector table */
+ if (mainf && IFFUNC_HASBODY (mainf->type))
+ {
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; interrupt vector \n");
+ fprintf (asmFile, "%s", iComments2);
+ dbuf_write_and_destroy (&vBuf, asmFile);
+ }
+
+ /* copy global & static initialisations */
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; global & static initialisations\n");
+ fprintf (asmFile, "%s", iComments2);
+
+ /* Everywhere we generate a reference to the static_name area,
+ * (which is currently only here), we immediately follow it with a
+ * definition of the post_static_name area. This guarantees that
+ * the post_static_name area will immediately follow the static_name
+ * area.
+ */
+ tfprintf (asmFile, "\t!area\n", port->mem.home_name);
+ tfprintf (asmFile, "\t!area\n", port->mem.static_name); /* MOF */
+ tfprintf (asmFile, "\t!area\n", port->mem.post_static_name);
+ tfprintf (asmFile, "\t!area\n", port->mem.static_name);
+
+ if (mainf && IFFUNC_HASBODY (mainf->type))
+ {
+ if (port->genInitStartup)
+ {
+ port->genInitStartup (asmFile);
+ }
+ else
+ {
+ assert (mcs51_like);
+ fprintf (asmFile, "__sdcc_gsinit_startup:\n");
+ /* if external stack is specified then the
+ higher order byte of the xdatalocation is
+ going into P2 and the lower order going into
+ spx */
+ if (options.useXstack)
+ {
+ fprintf (asmFile, "\tmov\tP2,#0x%02x\n",
+ (((unsigned int) options.xdata_loc) >> 8) & 0xff);
+ fprintf (asmFile, "\tmov\t_spx,#0x%02x\n",
+ (unsigned int) options.xdata_loc & 0xff);
+ }
+
+ // This should probably be a port option, but I'm being lazy.
+ // on the 400, the firmware boot loader gives us a valid stack
+ // (see '400 data sheet pg. 85 (TINI400 ROM Initialization code)
+ if (!TARGET_IS_DS400)
+ {
+ /* initialise the stack pointer. JCF: aslink takes care of the location */
+ fprintf (asmFile, "\tmov\tsp,#__start__stack - 1\n"); /* MOF */
+ }
+
+ fprintf (asmFile, "\t%ccall\t__sdcc_external_startup\n", options.acall_ajmp?'a':'l');
+ fprintf (asmFile, "\tmov\ta,dpl\n");
+ fprintf (asmFile, "\tjz\t__sdcc_init_data\n");
+ fprintf (asmFile, "\t%cjmp\t__sdcc_program_startup\n", options.acall_ajmp?'a':'l');
+ fprintf (asmFile, "__sdcc_init_data:\n");
+
+ // if the port can copy the XINIT segment to XISEG
+ if (port->genXINIT)
+ {
+ port->genXINIT (asmFile);
+ }
+ }
+ }
+ dbuf_write_and_destroy (&statsg->oBuf, asmFile);
+
+ if (port->general.glue_up_main && mainf && IFFUNC_HASBODY (mainf->type))
+ {
+ /* This code is generated in the post-static area.
+ * This area is guaranteed to follow the static area
+ * by the ugly shucking and jiving about 20 lines ago.
+ */
+ tfprintf (asmFile, "\t!area\n", port->mem.post_static_name);
+ fprintf (asmFile, "\t%cjmp\t__sdcc_program_startup\n", options.acall_ajmp?'a':'l');
+ }
+
+ fprintf (asmFile,
+ "%s"
+ "; Home\n"
+ "%s", iComments2, iComments2);
+ tfprintf (asmFile, "\t!areahome\n", HOME_NAME);
+ dbuf_write_and_destroy (&home->oBuf, asmFile);
+
+ if (mainf && IFFUNC_HASBODY (mainf->type))
+ {
+ /* entry point @ start of HOME */
+ fprintf (asmFile, "__sdcc_program_startup:\n");
+
+ /* put in jump or call to main */
+ if (options.mainreturn)
+ {
+ fprintf (asmFile, "\t%cjmp\t_main\n", options.acall_ajmp?'a':'l'); /* needed? */
+ fprintf (asmFile, ";\treturn from main will return to caller\n");
+ }
+ else
+ {
+ fprintf (asmFile, "\t%ccall\t_main\n", options.acall_ajmp?'a':'l');
+ fprintf (asmFile, ";\treturn from main will lock up\n");
+ fprintf (asmFile, "\tsjmp .\n");
+ }
+ }
+ /* copy over code */
+ fprintf (asmFile, "%s", iComments2);
+ fprintf (asmFile, "; code\n");
+ fprintf (asmFile, "%s", iComments2);
+ tfprintf (asmFile, "\t!areacode\n", options.code_seg);
+ dbuf_write_and_destroy (&code->oBuf, asmFile);
+
+ if (port->genAssemblerEnd)
+ {
+ port->genAssemblerEnd (asmFile);
+ }
+ fclose (asmFile);
}