ack/lang/cem/cemcom/replace.c

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/* $Header$ */
/* PREPROCESSOR: MACRO-TEXT REPLACEMENT ROUTINES */
#include "nopp.h"
#ifndef NOPP
#include "debug.h" /* UF */
#include "pathlength.h" /* UF */
#include "strsize.h" /* UF */
#include <alloc.h>
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#include "idf.h"
#include "input.h"
#include "macro.h"
#include "arith.h"
#include "LLlex.h"
#include "class.h"
#include "assert.h"
#include "interface.h"
#include "static.h"
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char *strcpy(), *strcat();
char *long2str();
PRIVATE struct macro *ReplaceList; /* list of currently active macros */
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EXPORT int
replace(idef)
register struct idf *idef;
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{
/* replace() is called by the lexical analyzer to perform
macro replacement. "idef" is the description of the
identifier which leads to the replacement. If the
optional actual parameters of the macro are OK, the text
of the macro is prepared to serve as an input buffer,
which is pushed onto the input stack.
replace() returns 1 if the replacement succeeded and 0 if
some error has occurred.
*/
register struct macro *mac = idef->id_macro;
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register char c;
char **actpars, **getactuals();
char *reptext, *macro2buffer();
int size;
if (mac->mc_flag & NOREPLACE) {
lexwarning("macro %s is recursive", idef->id_text);
return 0;
}
if (mac->mc_nps != -1) { /* with parameter list */
if (mac->mc_flag & FUNC) {
/* must be "defined".
Unfortunately, the next assertion
will not compile ...
ASSERT( ! strcmp("defined", idef->id_text));
*/
if (! AccDefined)
return 0;
}
if (++mac->mc_count > 100) {
/* 100 must be some number in Parameters */
lexwarning("macro %s is assumed recursive",
idef->id_text);
return 0;
}
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LoadChar(c);
c = skipspaces(c);
if (c != '(') { /* no replacement if no () */
lexerror("(warning) macro %s needs arguments",
idef->id_text);
PushBack();
return 0;
}
actpars = getactuals(idef); /* get act.param. list */
if (mac->mc_flag & FUNC) {
struct idf *param = str2idf(*actpars);
if (param->id_macro)
reptext = "1";
else
reptext = "0";
InsertText(reptext, 1);
mac->next = ReplaceList;
ReplaceList = mac;
return 1;
}
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}
if (mac->mc_flag & FUNC) /* this macro leads to special action */
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macro_func(idef);
if (mac->mc_nps <= 0)
mac->mc_flag |= NOREPLACE;
reptext = macro2buffer(idef, actpars, &size); /* create input buffer */
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InsertText(reptext, size);
mac->next = ReplaceList;
ReplaceList = mac;
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return 1;
}
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GSTATIC char FilNamBuf[PATHLENGTH];
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PRIVATE
macro_func(idef)
register struct idf *idef;
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{
/* macro_func() performs the special actions needed with some
macros. These macros are __FILE__ and __LINE__ which
replacement texts must be evaluated at the time they are
used.
*/
register struct macro *mac = idef->id_macro;
switch (idef->id_text[2]) { /* This switch is very blunt... */
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case 'F' : /* __FILE__ */
FilNamBuf[0] = '"';
strcpy(&FilNamBuf[1], FileName);
strcat(FilNamBuf, "\"");
mac->mc_text = FilNamBuf;
mac->mc_length = strlen(FilNamBuf);
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break;
case 'L' : /* __LINE__ */
mac->mc_text = long2str((long)LineNumber, 10);
mac->mc_length = 1;
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break;
default :
crash("(macro_func)");
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}
}
PRIVATE char *
macro2buffer(idef, actpars, siztext)
struct idf *idef;
char **actpars;
int *siztext;
{
/* Macro2buffer() turns the macro replacement text, as it is
stored, into an input buffer, while each occurrence of the
non-ascii formal parameter mark is replaced by its
corresponding actual parameter specified in the actual
parameter list actpars. A pointer to the beginning of the
constructed text is returned, while *siztext is filled
with its length.
If there are no parameters, this function behaves
the same as strcpy().
*/
register int size = 8;
register char *text = Malloc(size);
register int pos = 0;
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register char *ptr = idef->id_macro->mc_text;
while (*ptr) {
if (*ptr & FORMALP) { /* non-asc formal param. mark */
register int n = *ptr++ & 0177;
register char *p;
ASSERT(n != 0);
/* copy the text of the actual parameter
into the replacement text
*/
for (p = actpars[n - 1]; *p; p++) {
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text[pos++] = *p;
if (pos == size)
text = Srealloc(text, size += RSTRSIZE);
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}
}
else {
text[pos++] = *ptr++;
if (pos == size)
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text = Srealloc(text, size += RSTRSIZE);
}
}
text[pos] = '\0';
*siztext = pos;
return text;
}
EXPORT
DoUnstack()
{
Unstacked++;
}
EXPORT
EnableMacros()
{
register struct macro *p = ReplaceList;
ASSERT(Unstacked > 0);
while (Unstacked > 0) {
ASSERT(p != 0);
p->mc_flag &= ~NOREPLACE;
p->mc_count = 0;
p = p->next;
Unstacked--;
}
ReplaceList = p;
}
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#endif NOPP