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fteqw/engine/qclib/qcc_pr_lex.c
Spoike 49ae9573b8 reworked clipboard handling to avoid stalls when pasting in linux.
made a load of functions static (just code style stuff).
downloads menu now deselects any autoselected items, to avoid confusion.
csqc traces can now hit networked ents. I probably need to make some more tweaks to this.
arg completion for flocate+dir+modelviewer commands.
fix autosave not cycling saves when using the vanilla save format.
fix patch collisions with q3bsp submodels.
md3 now supports framegroups too.
added some more buttons to make xonotic happy.
gl_polyblend 2 shows the screen flashes at the edge of the screen instead of the middle.
colormod no longer applies to fullbrights (matching DP). this fixes an issue with xonotic.
fix uninitialised local that was causing issues with bones used as tags.
rewrote qc search_* to use a dynamic array instead of a linked list. this should make it faster to read when there's many handles open at a time.
fte's saved games can now save buffers properly.
fix issue with raster freetype fonts (read: coloured emoji).
initial support for struct-based classes (instead of entity-based classes). still has issues.
execing configs in untrusted packages will no longer run out of sync (fixing a number of afterquake issues).
fix stupid bug with the te_gunshot/etc builtins.


git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5317 fc73d0e0-1445-4013-8a0c-d673dee63da5
2018-10-11 10:31:23 +00:00

6102 lines
146 KiB
C

#if !defined(MINIMAL) && !defined(OMIT_QCC)
#include "qcc.h"
#include "time.h"
#define MEMBERFIELDNAME "__m%s"
#define STRCMP(s1,s2) (((*s1)!=(*s2)) || strcmp(s1,s2)) //saves about 2-6 out of 120 - expansion of idea from fastqcc
void QCC_PR_PreProcessor_Define(pbool append);
pbool QCC_PR_UndefineName(char *name);
char *QCC_PR_CheckCompConstString(char *def);
CompilerConstant_t *QCC_PR_CheckCompConstDefined(char *def);
int QCC_PR_CheckCompConst(void);
pbool QCC_Include(char *filename);
void QCC_FreeDef(QCC_def_t *def);
#define MAXINCLUDEDIRS 8
char qccincludedir[MAXINCLUDEDIRS][256]; //the -src path, for #includes
struct qccincludeonced_s
{
struct qccincludeonced_s *next;
char name[1];
} *qccincludeonced; //the -src path, for #includes
char *compilingfile;
int pr_source_line;
char *pr_file_p;
char *pr_line_start; // start of current source line
int pr_bracelevel;
char pr_token[8192];
token_type_t pr_token_type;
int pr_token_line;
int pr_token_line_last;
QCC_type_t *pr_immediate_type;
QCC_evalstorage_t pr_immediate;
char pr_immediate_string[8192];
size_t pr_immediate_strlen;
int pr_error_count;
int pr_warning_count;
extern pbool expandedemptymacro;
//really these should not be in here
extern unsigned int locals_end, locals_start;
extern QCC_type_t *pr_classtype;
QCC_function_t *QCC_PR_ParseImmediateStatements (QCC_def_t *def, QCC_type_t *type, pbool dowrap);
static void Q_strlcpy(char *dest, const char *src, int sizeofdest)
{
if (sizeofdest)
{
int slen = strlen(src);
slen = min((sizeofdest-1), slen);
memcpy(dest, src, slen);
dest[slen] = 0;
}
}
char *pr_punctuation[] =
// longer symbols must be before a shorter partial match
{"&&", "||", "<=", ">=","==", "!=", "/=", "*=", "+=", "-=", "(+)", "(-)", "|=", "&~=", "&=", "++", "--", "->", "^=", "::", ";", ",", "!", "*^", "*", "/", "(", ")", "-", "+", "=", "[", "]", "{", "}", "...", "..", ".", "><", "<<=", "<<", "<", ">>=", ">>", ">" , "?", "#" , "@", "&" , "|", "%", "^^", "^", "~", ":", NULL};
char *pr_punctuationremap[] = //a nice bit of evilness.
//(+) -> |=
//-> -> .
//(-) -> &~=
{"&&", "||", "<=", ">=","==", "!=", "/=", "*=", "+=", "-=", "|=", "&~=", "|=", "&~=", "&=", "++", "--", ".", "^=", "::", ";", ",", "!", "*^", "*", "/", "(", ")", "-", "+", "=", "[", "]", "{", "}", "...", "..", ".", "><", "<<=", "<<", "<", ">>=", ">>", ">" , "?", "#" , "@", "&" , "|", "%", "^^", "^", "~", ":", NULL};
// simple types. function types are dynamically allocated
QCC_type_t *type_void; //void
QCC_type_t *type_string; //string
QCC_type_t *type_float; //float
QCC_type_t *type_vector; //vector
QCC_type_t *type_entity; //entity
QCC_type_t *type_field; //.void
QCC_type_t *type_function; //void()
QCC_type_t *type_floatfunction; //float()
QCC_type_t *type_pointer; //??? * - careful with this one
QCC_type_t *type_integer; //int
QCC_type_t *type_variant; //__variant
QCC_type_t *type_floatpointer; //float *
QCC_type_t *type_intpointer; //int *
QCC_type_t *type_floatfield;// = {ev_field/*, &def_field*/, NULL, &type_float};
QCC_def_t def_ret, def_parms[MAX_PARMS];
//QCC_def_t *def_for_type[9] = {&def_void, &def_string, &def_float, &def_vector, &def_entity, &def_field, &def_function, &def_pointer, &def_integer};
void QCC_PR_LexWhitespace (pbool inhibitpreprocessor);
QCC_type_t *QCC_PR_ParseEnum(pbool flags);
//for compiler constants and file includes.
qcc_includechunk_t *currentchunk;
void QCC_PR_CloseProcessor(void)
{
int i;
for (i = 0; i < MAXINCLUDEDIRS; i++)
*qccincludedir[i] = 0;
currentchunk = NULL;
qccincludeonced = NULL;
}
void QCC_PR_AddIncludePath(const char *newinc)
{
int i;
if (!*newinc)
{
newinc = ".";
// QCC_PR_ParseWarning(WARN_STRINGTOOLONG, "Invalid include path.");
// return;
}
for (i = 0; i < MAXINCLUDEDIRS; i++)
{
if (!*qccincludedir[i])
{
const char *e = newinc + strlen(newinc)-1;
QC_strlcpy(qccincludedir[i], newinc, sizeof(qccincludedir));
if (*e != '/' && *e != '\\')
QC_strlcat(qccincludedir[i], "/", sizeof(qccincludedir));
break;
}
if (!strcmp(qccincludedir[i], newinc))
break;
}
if (i == MAXINCLUDEDIRS)
{
QCC_PR_ParseWarning(WARN_STRINGTOOLONG, "Too many include dirs. Ignoring and hoping the stars align.");
}
}
static void QCC_PR_IncludeChunkEx (char *data, pbool duplicate, char *filename, CompilerConstant_t *cnst)
{
qcc_includechunk_t *chunk = qccHunkAlloc(sizeof(qcc_includechunk_t));
chunk->prev = currentchunk;
currentchunk = chunk;
chunk->currentdatapoint = pr_file_p;
chunk->currentfilename = s_filen;
chunk->currentlinenumber = pr_source_line;
chunk->cnst = cnst;
if( cnst )
{
#if 0
s_filen = cnst->fromfile;
pr_source_line = cnst->fromline;
#else
int b = strlen(s_filen)+1+8+strlen(cnst->name);
char *p;
if (b > 128)
b = 128;
s_filen = p = qccHunkAlloc(b);
QC_snprintfz(p, b, "%s:%i:%s", chunk->currentfilename, chunk->currentlinenumber, cnst->name);
pr_source_line = 1;
#endif
cnst->inside++;
}
else
pr_source_line = 1;
if (duplicate)
{
pr_file_p = qccHunkAlloc(strlen(data)+1);
strcpy(pr_file_p, data);
}
else
pr_file_p = data;
chunk->datastart = pr_file_p;
}
void QCC_PR_IncludeChunk (char *data, pbool duplicate, char *filename)
{
QCC_PR_IncludeChunkEx(data, duplicate, filename, NULL);
}
pbool QCC_PR_UnInclude(void)
{
if (!currentchunk)
return false;
if( currentchunk->cnst )
currentchunk->cnst->inside--;
pr_file_p = currentchunk->currentdatapoint;
pr_source_line = currentchunk->currentlinenumber;
s_filen = currentchunk->currentfilename;
currentchunk = currentchunk->prev;
return true;
}
void QCC_Canonicalize(char *fullname, size_t fullnamesize, const char *newfile, const char *base)
{
int doubledots;
char *end = fullname;
doubledots = 0;
/*count how far up we need to go*/
while(1)
{
if (!strncmp(newfile, "./", 2) || !strncmp(newfile, ".\\", 2))
newfile+=2;
else if(!strncmp(newfile, "../", 3) || !strncmp(newfile, "..\\", 3))
{
newfile+=3;
doubledots++;
}
else
break;
}
//FIXME: length validation!
if (base)
strcpy(fullname, base);
else
*fullname = 0;
end = fullname+strlen(fullname);
while (end > fullname)
{
end--;
/*stop at the slash, unless we're meant to go further*/
if (*end == '/' || *end == '\\')
{
if (!doubledots)
{
end++;
break;
}
doubledots--;
}
}
while (doubledots-- > 0)
{
strcpy(end, "../");
end += 3;
}
strcpy(end, newfile);
}
extern char qccmsourcedir[];
//also meant to include it.
void QCC_FindBestInclude(char *newfile, char *currentfile, pbool verbose)
{
struct qccincludeonced_s *onced;
int includepath = 0;
char fullname[1024];
if (!*newfile)
return;
while(1)
{
if (includepath)
{
if (includepath > MAXINCLUDEDIRS || !*qccincludedir[includepath-1])
QCC_Error(ERR_COULDNTOPENFILE, "Couldn't open file %s", newfile);
currentfile = qccincludedir[includepath-1];
}
QCC_Canonicalize(fullname, sizeof(fullname), newfile, currentfile);
{
extern progfuncs_t *qccprogfuncs;
if (qccprogfuncs->funcs.parms->FileSize(fullname) == -1)
{
includepath++;
continue;
}
}
break;
}
for(onced = qccincludeonced; onced; onced = onced->next)
{
if (!strcmp(onced->name, fullname))
return;
}
if (verbose)
{
if (verbose == 2)
{
if (autoprototype)
externs->Printf("prototyping %s\n", fullname);
else
externs->Printf("compiling %s\n", fullname);
}
else
{
if (autoprototype)
externs->Printf("prototyping include %s\n", fullname);
else
externs->Printf("including %s\n", fullname);
}
}
QCC_Include(fullname);
}
pbool defaultnoref;
pbool defaultnosave;
pbool defaultstatic;
int ForcedCRC;
int QCC_PR_LexInteger (void);
void QCC_AddFile (char *filename);
void QCC_PR_LexString (void);
pbool QCC_PR_SimpleGetToken (void);
pbool QCC_PR_SimpleGetString(void);
#define PPI_VALUE 0
#define PPI_NOT 1
#define PPI_DEFINED 2
#define PPI_COMPARISON 3
#define PPI_LOGICAL 4
#define PPI_TOPLEVEL 5
static int ParsePrecompilerIf(int level)
{
CompilerConstant_t *c;
int eval = 0;
// pbool notted = false;
//single term end-of-chain
if (level == PPI_VALUE)
{
/*skip whitespace*/
while (*pr_file_p && qcc_iswhite(*pr_file_p) && *pr_file_p != '\n')
{
pr_file_p++;
}
if (*pr_file_p == '(')
{ //try brackets
pr_file_p++;
eval = ParsePrecompilerIf(PPI_TOPLEVEL);
while (*pr_file_p == ' ' || *pr_file_p == '\t')
pr_file_p++;
if (*pr_file_p != ')')
QCC_PR_ParseError(ERR_EXPECTED, "unclosed bracket condition\n");
pr_file_p++;
}
else if (*pr_file_p == '!')
{ //try brackets
pr_file_p++;
eval = !ParsePrecompilerIf(PPI_NOT);
}
else
{ //simple token...
if (!strncmp(pr_file_p, "defined", 7))
{
pr_file_p+=7;
while (*pr_file_p == ' ' || *pr_file_p == '\t')
pr_file_p++;
if (*pr_file_p != '(')
{
eval = false;
QCC_PR_ParseError(ERR_EXPECTED, "no opening bracket after defined\n");
}
else
{
pr_file_p++;
QCC_PR_SimpleGetToken();
eval = !!QCC_PR_CheckCompConstDefined(pr_token);
while (*pr_file_p == ' ' || *pr_file_p == '\t')
pr_file_p++;
if (*pr_file_p != ')')
QCC_PR_ParseError(ERR_EXPECTED, "unclosed defined condition\n");
pr_file_p++;
}
}
else
{
if (!QCC_PR_SimpleGetToken())
QCC_PR_ParseError(ERR_EXPECTED, "unexpected end-of-line\n");
c = QCC_PR_CheckCompConstDefined(pr_token);
if (!c)
eval = atoi(pr_token);
else
eval = atoi(c->value);
}
}
return eval;
}
eval = ParsePrecompilerIf(level-1);
while (*pr_file_p && qcc_iswhite(*pr_file_p) && *pr_file_p != '\n')
{
pr_file_p++;
}
switch(level)
{
case PPI_LOGICAL:
if (!strncmp(pr_file_p, "||", 2))
{
pr_file_p+=2;
eval = ParsePrecompilerIf(level)||eval;
}
else if (!strncmp(pr_file_p, "&&", 2))
{
pr_file_p+=2;
eval = ParsePrecompilerIf(level)&&eval;
}
break;
case PPI_COMPARISON:
if (!strncmp(pr_file_p, "<=", 2))
{
pr_file_p+=2;
eval = eval <= ParsePrecompilerIf(level);
}
else if (!strncmp(pr_file_p, ">=", 2))
{
pr_file_p += 2;
eval = eval >= ParsePrecompilerIf(level);
}
else if (!strncmp(pr_file_p, "<", 1))
{
pr_file_p += 1;
eval = eval < ParsePrecompilerIf(level);
}
else if (!strncmp(pr_file_p, ">", 1))
{
pr_file_p += 1;
eval = eval > ParsePrecompilerIf(level);
}
else if (!strncmp(pr_file_p, "!=", 2))
{
pr_file_p += 2;
eval = eval != ParsePrecompilerIf(level);
}
else if (!strncmp(pr_file_p, "==", 2))
{
pr_file_p += 2;
eval = eval == ParsePrecompilerIf(level);
}
break;
}
return eval;
}
struct deflist_s
{
char *buffer;
size_t length;
size_t buffersize;
};
static void QCC_PR_GetDefinesListEnumerate(void *vctx, void *data)
{
struct deflist_s *ctx = vctx;
CompilerConstant_t *def = data;
char term[8192];
size_t termsize;
QC_snprintfz(term, sizeof(term), "\n%s", def->name);
if (def->numparams >= 0)
{
int i;
QC_strlcat(term, "(", sizeof(term));
for (i = 0; i < def->numparams; i++)
{
if (i)
QC_strlcat(term, ",", sizeof(term));
QC_strlcat(term, def->params[i], sizeof(term));
}
QC_strlcat(term, ")", sizeof(term));
}
if (def->value && *def->value)
{
char *o, *i;
QC_strlcat(term, "=", sizeof(term));
//annoying logic to skip whitespace... hopefully it won't fuck stuff up too much.
for (o = term+strlen(term), i = def->value; o < term + sizeof(term)-1 && *i; )
{
if (*i == ' ' || *i == '\t' || *i == '\n' || *i == '\r')
i++;
else
*o++ = *i++;
}
*o = 0;
}
termsize = strlen(term);
if (ctx->length + termsize+1 > ctx->buffersize)
{
ctx->buffersize = (ctx->length + termsize+1)*2;
ctx->buffer = realloc(ctx->buffer, ctx->buffersize);
}
memcpy(ctx->buffer+ctx->length, term, termsize);
ctx->length += termsize;
ctx->buffer[ctx->length] = 0;
}
char *QCC_PR_GetDefinesList(void)
{
struct deflist_s ctx = {NULL};
Hash_Enumerate(&compconstantstable, QCC_PR_GetDefinesListEnumerate, &ctx);
return ctx.buffer;
}
//returns true if it was white/comments only. false if there was actual text that was skipped.
static void QCC_PR_SkipToEndOfLine(pbool errorifnonwhite)
{
pbool handleccomments = true;
while(*pr_file_p != '\n' && *pr_file_p != '\0') //read on until the end of the line
{
if (*pr_file_p == '/' && pr_file_p[1] == '*' && handleccomments)
{
pr_file_p += 2;
while(*pr_file_p)
{
if (*pr_file_p == '*' && pr_file_p[1] == '/')
{
pr_file_p+=2;
break;
}
if (*pr_file_p == '\n')
pr_source_line++;
pr_file_p++;
}
}
else if (*pr_file_p == '/' && pr_file_p[1] == '/' && handleccomments)
{
handleccomments = false;
pr_file_p += 2;
/*while(*pr_file_p)
{
if (*pr_file_p == '\n')
break;
pr_file_p++;
}*/
}
else if (*pr_file_p == '\\' && pr_file_p[1] == '\r' && pr_file_p[2] == '\n')
{ /*windows endings*/
pr_file_p+=3;
pr_source_line++;
}
else if (*pr_file_p == '\"' && handleccomments)
{
if (errorifnonwhite)
{
errorifnonwhite = false;
QCC_PR_ParseWarning (ERR_UNKNOWNPUCTUATION, "unexpected tokens at end of line");
}
pr_file_p++;
while (*pr_file_p)
{
if (*pr_file_p == '\n')
break; //this text is junk/ignored, so ignore the obvious error here.
else if (*pr_file_p == '\"')
{
pr_file_p++;
break;
}
else if (*pr_file_p == '\\' && pr_file_p[1] == '\"')
pr_file_p+=2; //don't trip on "\"/*"
else if (*pr_file_p == '\\' && pr_file_p[1] == '\\')
pr_file_p+=2; //don't trip on "\\"//"foo
else
pr_file_p++;
//any other \ should be part of the actual string, which we don't care about here
}
}
else if (*pr_file_p == '\\' && pr_file_p[1] == '\n')
{ /*linux endings*/
pr_file_p+=2;
pr_source_line++;
}
else
{
if (errorifnonwhite && handleccomments && !qcc_iswhite(*pr_file_p))
{
errorifnonwhite = false;
QCC_PR_ParseWarning(ERR_UNKNOWNPUCTUATION, "unexpected tokens at end of line");
}
pr_file_p++;
}
}
}
//if hadtrue, then we allow elses, otherwise we skip them.
static pbool QCC_PR_FalsePreProcessorIf(pbool hadtrue, int originalline)
{
int eval;
int level = 1;
while (1)
{
while(*pr_file_p && (*pr_file_p==' ' || *pr_file_p == '\t'))
pr_file_p++;
if (!*pr_file_p)
{
pr_source_line = originalline;
QCC_PR_ParseError (ERR_NOENDIF, "#if with no endif");
}
if (*pr_file_p == '#')
{
pr_file_p++;
while(*pr_file_p==' ' || *pr_file_p == '\t')
pr_file_p++;
if (!strncmp(pr_file_p, "endif", 5))
level--;
if (!strncmp(pr_file_p, "if", 2))
level++;
if (!hadtrue && !strncmp(pr_file_p, "else", 4) && level == 1)
{
pr_file_p+=4;
QCC_PR_SkipToEndOfLine(true);
return true;
}
if (!hadtrue && !strncmp(pr_file_p, "elif", 4) && level == 1)
{
// QCC_PR_ParseError(ERR_UNKNOWNPUCTUATION, "#elif not supported\n");
pr_file_p += 4;
if (!strncmp(pr_file_p, "def", 3))
{
eval = 1;
pr_file_p += 3;
}
else if (!strncmp(pr_file_p, "ndef", 4))
{
eval = 0;
pr_file_p += 4;
}
else
eval = 2;
if (*pr_file_p != ' ' && *pr_file_p != '\t')
QCC_PR_ParseError(ERR_UNKNOWNPUCTUATION, "malformed #elif\n");
if (eval == 2)
eval = ParsePrecompilerIf(PPI_TOPLEVEL);
else
{
QCC_PR_SimpleGetToken ();
if (eval)
eval = !!QCC_PR_CheckCompConstDefined(pr_token);
else
eval = !QCC_PR_CheckCompConstDefined(pr_token);
}
if (eval)
{
QCC_PR_SkipToEndOfLine(true);
return true;
}
}
}
QCC_PR_SkipToEndOfLine(false);
if (level <= 0)
return false;
pr_file_p++; //next line
pr_source_line++;
}
}
#if 0
static void QCC_PR_PackagerMessage(void *userctx, char *message, ...)
{
va_list argptr;
char string[1024];
va_start (argptr,message);
QC_vsnprintf (string,sizeof(string)-1,message,argptr);
va_end (argptr);
externs->Printf ("%s", string);
}
#endif
/*
==============
QCC_PR_Precompiler
==============
Runs precompiler stage
*/
static pbool QCC_PR_Precompiler(void)
{
char msg[1024];
int ifmode;
int a;
static int ifs = 0;
pbool eval = false;
if (*pr_file_p == '#')
{
char *directive;
for (directive = pr_file_p+1; *directive; directive++) //so # define works
{
if (*directive == '\r' || *directive == '\n')
QCC_PR_ParseError(ERR_UNKNOWNPUCTUATION, "Hanging # with no directive\n");
if (*directive > ' ')
break;
}
if (!strncmp(directive, "define", 6))
{
pr_file_p = directive;
QCC_PR_PreProcessor_Define(false);
QCC_PR_SkipToEndOfLine(true);
}
else if (!strncmp(directive, "append", 6))
{
pr_file_p = directive;
QCC_PR_PreProcessor_Define(true);
QCC_PR_SkipToEndOfLine(true);
}
else if (!strncmp(directive, "undef", 5))
{
pr_file_p = directive+5;
while(qcc_iswhitesameline(*pr_file_p))
pr_file_p++;
QCC_PR_SimpleGetToken ();
QCC_PR_UndefineName(pr_token);
// QCC_PR_ConditionCompilation();
QCC_PR_SkipToEndOfLine(true);
}
else if (!strncmp(directive, "if", 2))
{
int originalline = pr_source_line;
pr_file_p = directive+2;
if (!strncmp(pr_file_p, "def", 3))
{
ifmode = 0;
pr_file_p+=3;
}
else if (!strncmp(pr_file_p, "ndef", 4))
{
ifmode = 1;
pr_file_p+=4;
}
else
{
ifmode = 2;
pr_file_p+=0;
//QCC_PR_ParseError("bad \"#if\" type");
}
if (!qcc_iswhite(*pr_file_p))
{
pr_file_p = directive;
QCC_PR_SimpleGetToken ();
QCC_PR_ParseWarning(WARN_BADPRAGMA, "Unknown pragma \'%s\'", qcc_token);
}
else
{
if (ifmode == 2)
{
eval = ParsePrecompilerIf(PPI_TOPLEVEL);
}
else
{
QCC_PR_SimpleGetToken ();
// if (!STRCMP(pr_token, "COOP_MODE"))
// eval = false;
if (QCC_PR_CheckCompConstDefined(pr_token))
eval = true;
if (ifmode == 1)
eval = eval?false:true;
}
QCC_PR_SkipToEndOfLine(true);
if (eval)
ifs+=1;
else
ifs += QCC_PR_FalsePreProcessorIf(false, originalline);
}
}
else if (!strncmp(directive, "else", 4) || !strncmp(directive, "elif", 4))
{
int originalline = pr_source_line;
if (!ifs)
QCC_PR_ParseError(ERR_UNKNOWNPUCTUATION, "#else outside of #if\n");
ifs -= 1;
pr_file_p = directive+4;
if (!strncmp(directive, "elif", 4))
QCC_PR_SkipToEndOfLine(false);
else
QCC_PR_SkipToEndOfLine(true);
ifs += QCC_PR_FalsePreProcessorIf(true, originalline);
}
else if (!strncmp(directive, "endif", 5))
{
pr_file_p = directive+5;
QCC_PR_SkipToEndOfLine(true);
if (ifs <= 0)
QCC_PR_ParseError(ERR_NOPRECOMPILERIF, "unmatched #endif");
else
ifs-=1;
}
else if (!strncmp(directive, "eof", 3))
{
pr_file_p = NULL;
return true;
}
else if (!strncmp(directive, "error", 5))
{
pr_file_p = directive+5;
for (a = 0; a < sizeof(msg)-1 && pr_file_p[a] != '\t' && pr_file_p[a] != '\n' && pr_file_p[a] != '\0'; a++)
msg[a] = pr_file_p[a];
msg[a] = '\0';
QCC_PR_SkipToEndOfLine(false);
QCC_PR_ParseError(ERR_HASHERROR, "#Error: %s", msg);
}
else if (!strncmp(directive, "warning", 7))
{
pr_file_p = directive+7;
for (a = 0; a < 1023 && pr_file_p[a] != '\r' && pr_file_p[a] != '\n' && pr_file_p[a] != '\0'; a++)
msg[a] = pr_file_p[a];
msg[a] = '\0';
QCC_PR_SkipToEndOfLine(false);
QCC_PR_ParseWarning(WARN_PRECOMPILERMESSAGE, "#warning: %s", msg);
}
else if (!strncmp(directive, "message", 7))
{
pr_file_p = directive+7;
for (a = 0; a < sizeof(msg)-1 && pr_file_p[a] != '\r' && pr_file_p[a] != '\n' && pr_file_p[a] != '\0'; a++)
msg[a] = pr_file_p[a];
msg[a] = '\0';
if (flag_msvcstyle)
externs->Printf ("%s(%i) : #message: %s\n", s_filen, pr_source_line, msg);
else
externs->Printf ("%s:%i: #message: %s\n", s_filen, pr_source_line, msg);
QCC_PR_SkipToEndOfLine(false);
}
else if (!strncmp(directive, "copyright", 9))
{
pr_file_p = directive+9;
for (a = 0; a < sizeof(msg)-1 && qcc_iswhite(pr_file_p[a]) && pr_file_p[a] != '\0'; a++)
msg[a] = pr_file_p[a];
msg[a] = '\0';
QCC_PR_SkipToEndOfLine(false);
if (strlen(msg) >= sizeof(QCC_copyright))
QCC_PR_ParseWarning(WARN_STRINGTOOLONG, "Copyright message is too long\n");
QC_strlcpy(QCC_copyright, msg, sizeof(QCC_copyright)-1);
}
else if (!strncmp(directive, "package", 7))
{
pr_file_p=directive+7;
QCC_PR_SkipToEndOfLine(true);
#if 0
if (!autoprototype)
{
struct pkgctx_s *ctx = Packager_Create(QCC_PR_PackagerMessage, NULL);
Packager_ParseText(ctx, pr_file_p);
Packager_WriteDataset(ctx, NULL);
Packager_Destroy(ctx);
}
#endif
pr_file_p += strlen(pr_file_p);
}
else if (!strncmp(directive, "pack", 4))
{
ifmode = 0;
pr_file_p=directive+4;
if (!strncmp(pr_file_p, "id", 2))
pr_file_p+=3;
else
{
ifmode = QCC_PR_LexInteger();
if (ifmode == 0)
ifmode = 1;
pr_file_p++;
}
for (a = 0; a < sizeof(msg)-1 && qcc_iswhite(pr_file_p[a]) && pr_file_p[a] != '\0'; a++)
msg[a] = pr_file_p[a];
msg[a] = '\0';
QCC_PR_SkipToEndOfLine(true);
if (ifmode == 0)
QCC_packid = atoi(msg);
else if (ifmode <= 5)
strcpy(QCC_Packname[ifmode-1], msg);
else
QCC_PR_ParseError(ERR_TOOMANYPACKFILES, "No more than 5 packs are allowed");
}
else if (!strncmp(directive, "forcecrc", 8))
{
pr_file_p=directive+8;
ForcedCRC = QCC_PR_LexInteger();
QCC_PR_SkipToEndOfLine(true);
}
else if (!strncmp(directive, "merge", 5))
{
extern char destfile[1024];
pr_file_p=directive+5;
while(qcc_iswhitesameline(*pr_file_p))
pr_file_p++;
QCC_PR_SimpleGetString();
externs->Printf("Merging to %s\n", pr_token);
QCC_ImportProgs(pr_token);
if (!*destfile)
{
QCC_Canonicalize(destfile, sizeof(destfile), pr_token, compilingfile);
externs->Printf("Outputfile: %s\n", destfile);
}
QCC_PR_SkipToEndOfLine(true);
}
else if (!strncmp(directive, "includelist", 11))
{
int defines=0;
pr_file_p=directive+11;
QCC_PR_SkipToEndOfLine(true);
while(1)
{
QCC_PR_LexWhitespace(false);
if (QCC_PR_CheckCompConst())
{
defines++;
continue;
}
if (!QCC_PR_SimpleGetToken())
{
if (!*pr_file_p)
{
if (defines>0)
{
defines--;
QCC_PR_UnInclude();
continue;
}
QCC_Error(ERR_EOF, "eof in includelist");
}
else
{
pr_file_p++;
pr_source_line++;
}
continue;
}
if (!strcmp(pr_token, "#endlist"))
{
QCC_PR_SkipToEndOfLine(true);
break;
}
QCC_FindBestInclude(pr_token, compilingfile, true);
if (*pr_file_p == '\r')
pr_file_p++;
// QCC_PR_SkipToEndOfLine(true);
}
}
else if (!strncmp(directive, "include", 7))
{
char sm;
pr_file_p=directive+7;
while(qcc_iswhitesameline(*pr_file_p))
pr_file_p++;
msg[0] = '\0';
if (*pr_file_p == '\"')
sm = '\"';
else if (*pr_file_p == '<')
sm = '>';
else
{
QCC_PR_ParseError(0, "Not a string literal (on a #include)");
sm = 0;
}
pr_file_p++;
a=0;
while(*pr_file_p != sm)
{
if (*pr_file_p == '\n')
{
QCC_PR_ParseError(0, "#include continued over line boundry\n");
break;
}
msg[a++] = *pr_file_p;
pr_file_p++;
}
msg[a] = 0;
pr_file_p++;
QCC_FindBestInclude(msg, compilingfile, false);
QCC_PR_SkipToEndOfLine(true);
}
else if (!strncmp(directive, "datafile", 8))
{
pr_file_p=directive+8;
while(qcc_iswhitesameline(*pr_file_p))
pr_file_p++;
QCC_PR_SimpleGetString();
externs->Printf("Including datafile: %s\n", pr_token);
QCC_AddFile(pr_token);
pr_file_p++;
for (a = 0; a < sizeof(msg)-1 && pr_file_p[a] != '\n' && pr_file_p[a] != '\0'; a++)
msg[a] = pr_file_p[a];
msg[a-1] = '\0';
while(*pr_file_p != '\n' && *pr_file_p != '\0') //read on until the end of the line
{
pr_file_p++;
}
}
else if (!strncmp(directive, "output", 6))
{
extern char destfile[1024];
pr_file_p=directive+6;
while(qcc_iswhitesameline(*pr_file_p))
pr_file_p++;
QCC_PR_SimpleGetString();
QCC_Canonicalize(destfile, sizeof(destfile), pr_token, compilingfile);
externs->Printf("Outputfile: %s\n", pr_token);
QCC_PR_SkipToEndOfLine(true);
}
else if (!strncmp(directive, "pragma", 6))
{
pr_file_p=directive+6;
while(qcc_iswhitesameline(*pr_file_p))
pr_file_p++;
qcc_token[0] = '\0';
for(a = 0; *pr_file_p != '\n' && *pr_file_p != '\0'; pr_file_p++) //read on until the end of the line
{
if ((*pr_file_p == ' ' || *pr_file_p == '\t'|| *pr_file_p == '(') && !*qcc_token)
{
msg[a] = '\0';
strcpy(qcc_token, msg);
a=0;
if (*pr_file_p != '(')
continue;
}
msg[a++] = *pr_file_p;
}
msg[a] = '\0';
{
char *end;
for (end = msg + a-1; end>=msg && qcc_iswhite(*end); end--)
*end = '\0';
}
if (!*qcc_token)
{
strcpy(qcc_token, msg);
msg[0] = '\0';
}
{
char *end;
for (end = msg + a-1; end>=msg && qcc_iswhite(*end); end--)
*end = '\0';
}
if (!QC_strcasecmp(qcc_token, "DONT_COMPILE_THIS_FILE"))
{
while (*pr_file_p)
{
while(*pr_file_p != '\n' && *pr_file_p != '\0') //read on until the end of the line
pr_file_p++;
if (*pr_file_p == '\n')
{
pr_file_p++;
QCC_PR_NewLine(false);
}
}
}
else if (!QC_strcasecmp(qcc_token, "COPYRIGHT"))
{
char *e = strrchr(msg+1, '\"');
if (*msg == '\"' && e && e != msg)
{ //FIXME: handle \ns
memmove(msg, msg+1, e-(msg+1));
msg[e-(msg+1)] = 0;
}
if (strlen(msg) >= sizeof(QCC_copyright))
QCC_PR_ParseWarning(WARN_STRINGTOOLONG, "Copyright message is too long\n");
QC_strlcpy(QCC_copyright, msg, sizeof(QCC_copyright)-1);
}
else if (!QC_strcasecmp(qcc_token, "compress"))
{
extern pbool compressoutput;
compressoutput = atoi(msg);
}
else if (!QC_strcasecmp(qcc_token, "forcecrc"))
{
ForcedCRC = atoi(msg);
}
else if (!QC_strcasecmp(qcc_token, "once"))
{
struct qccincludeonced_s *onced = qccHunkAlloc(sizeof(*onced) + strlen(compilingfile));
strcpy(onced->name, compilingfile);
onced->next = qccincludeonced;
qccincludeonced = onced;
}
else if (!QC_strcasecmp(qcc_token, "file"))
{ //#pragma file(foobar.qc)
if (!flag_nopragmafileline)
{
char *e;
char *m = msg;
if (*m == '(')
{
m++;
e = strchr(m, ')');
if (e)
*e = 0;
}
s_filen = e = qccHunkAlloc(strlen(m)+1);
strcpy(e, m);
if (opt_filenames)
{
optres_filenames += strlen(m);
s_filed = 0;
}
else
s_filed = QCC_CopyString (m);
}
}
else if (!QC_strcasecmp(qcc_token, "line"))
{ //#pragma line(666)
if (!flag_nopragmafileline)
{
char *m = msg;
if (*m == '(')
m++;
pr_source_line = strtoul(m, &m, 0)-1;
}
}
else if (!QC_strcasecmp(qcc_token, "includedir"))
{
char newinc[1024];
int i;
QCC_COM_Parse(msg);
if (*qcc_token)
{
i = qcc_token[strlen(qcc_token)-1];
if (i != '/' && i != '\\')
QC_strlcat(qcc_token, "/", sizeof(qcc_token));
}
QCC_Canonicalize(newinc, sizeof(newinc), qcc_token, compilingfile);
QCC_PR_AddIncludePath(newinc);
}
else if (!QC_strcasecmp(qcc_token, "noref"))
defaultnoref = !!atoi(msg);
else if (!QC_strcasecmp(qcc_token, "nosave"))
defaultnosave = !!atoi(msg);
else if (!QC_strcasecmp(qcc_token, "defaultstatic"))
defaultstatic = !!atoi(msg);
else if (!QC_strcasecmp(qcc_token, "autoproto"))
{
if (!autoprototyped)
{
if (numpr_globals != RESERVED_OFS)
QCC_PR_ParseWarning(WARN_BADPRAGMA, "#pragma autoproto must appear before any definitions");
else
autoprototype = *msg?!!atoi(msg):true;
}
}
else if (!QC_strcasecmp(qcc_token, "wrasm"))
{
pbool on = atoi(msg);
if (asmfile && !on)
{
fclose(asmfile);
asmfile = NULL;
}
if (!asmfile && on)
{
if (asmfilebegun)
asmfile = fopen("qc.asm", "ab");
else
asmfile = fopen("qc.asm", "wb");
if (asmfile)
asmfilebegun = true;
}
}
else if (!QC_strcasecmp(qcc_token, "optimise") || !QC_strcasecmp(qcc_token, "optimize")) //bloomin' americans.
{
int o;
extern pbool qcc_nopragmaoptimise;
if (pr_scope)
QCC_PR_ParseWarning(WARN_BADPRAGMA, "pragma %s: unable to change optimisation options mid-function", qcc_token);
else if (*msg >= '0' && *msg <= '3')
{
int lev = atoi(msg);
pbool state;
int once = false;
for (o = 0; optimisations[o].enabled; o++)
{
state = optimisations[o].optimisationlevel <= lev;
if (qcc_nopragmaoptimise && *optimisations[o].enabled != state)
{
if (!once++)
QCC_PR_ParseWarning(WARN_BADPRAGMA, "pragma %s %s: overriden by commandline", qcc_token, msg);
}
else
*optimisations[o].enabled = state;
}
}
else if (!strnicmp(msg, "addon", 5) || !strnicmp(msg, "mutator", 7))
{
int lev = 2;
pbool state = false;
for (o = 0; optimisations[o].enabled; o++)
{
if (optimisations[o].optimisationlevel > lev)
{
if (qcc_nopragmaoptimise && *optimisations[o].enabled != state)
QCC_PR_ParseWarning(WARN_IGNORECOMMANDLINE, "pragma %s %s: disabling %s", qcc_token, msg, optimisations[o].fullname);
*optimisations[o].enabled = state;
}
}
}
else
{
char *opt = msg;
pbool state = true;
if (!strnicmp(msg, "no-", 3))
{
state = false;
opt += 3;
}
for (o = 0; optimisations[o].enabled; o++)
if ((*optimisations[o].abbrev && !stricmp(opt, optimisations[o].abbrev)) || !stricmp(opt, optimisations[o].fullname))
{
if (qcc_nopragmaoptimise && *optimisations[o].enabled != state)
QCC_PR_ParseWarning(WARN_BADPRAGMA, "pragma %s %s: overriden by commandline", qcc_token, optimisations[o].fullname);
else
*optimisations[o].enabled = state;
break;
}
if (!optimisations[o].enabled)
QCC_PR_ParseWarning(WARN_BADPRAGMA, "pragma %s: %s unsupported", qcc_token, opt);
}
}
else if (!QC_strcasecmp(qcc_token, "sourcefile"))
{
#define MAXSOURCEFILESLIST 8
extern char sourcefileslist[MAXSOURCEFILESLIST][1024];
extern int numsourcefiles;
int i;
QCC_COM_Parse(msg);
for (i = 0; i < numsourcefiles; i++)
{
if (!strcmp(sourcefileslist[i], qcc_token))
break;
}
if (i == numsourcefiles && numsourcefiles < MAXSOURCEFILESLIST)
strcpy(sourcefileslist[numsourcefiles++], qcc_token);
}
else if (!QC_strcasecmp(qcc_token, "TARGET"))
{
int newtype = qcc_targetformat;
QCC_COM_Parse(msg);
if (!QC_strcasecmp(qcc_token, "H2") || !QC_strcasecmp(qcc_token, "HEXEN2"))
newtype = QCF_HEXEN2;
else if (!QC_strcasecmp(qcc_token, "KK7"))
newtype = QCF_KK7;
else if (!QC_strcasecmp(qcc_token, "DP") || !QC_strcasecmp(qcc_token, "DARKPLACES"))
newtype = QCF_DARKPLACES;
else if (!QC_strcasecmp(qcc_token, "FTEDEBUG"))
newtype = QCF_FTEDEBUG;
else if (!QC_strcasecmp(qcc_token, "FTE"))
newtype = QCF_FTE;
else if (!QC_strcasecmp(qcc_token, "FTEH2"))
newtype = QCF_FTEH2;
else if (!QC_strcasecmp(qcc_token, "STANDARD") || !QC_strcasecmp(qcc_token, "ID"))
newtype = QCF_STANDARD;
else if (!QC_strcasecmp(qcc_token, "DEBUG"))
newtype = QCF_FTEDEBUG;
else if (!QC_strcasecmp(qcc_token, "QTEST"))
newtype = QCF_QTEST;
else
QCC_PR_ParseWarning(WARN_BADTARGET, "Unknown target \'%s\'. Ignored.\nValid targets are: ID, HEXEN2, FTE, FTEH2, KK7, DP(patched)", qcc_token);
if (numstatements > 1)
{
if ((qcc_targetformat == QCF_HEXEN2 || qcc_targetformat == QCF_FTEH2) && (newtype != QCF_HEXEN2 && newtype != QCF_FTEH2))
QCC_PR_ParseWarning(WARN_BADTARGET, "Cannot switch from hexen2 target \'%s\' after the first statement. Ignored.", msg);
if ((newtype == QCF_HEXEN2 || newtype == QCF_FTEH2) && (qcc_targetformat != QCF_HEXEN2 && qcc_targetformat != QCF_FTEH2))
QCC_PR_ParseWarning(WARN_BADTARGET, "Cannot switch to hexen2 target \'%s\' after the first statement. Ignored.", msg);
}
qcc_targetformat = newtype;
}
else if (!QC_strcasecmp(qcc_token, "PROGS_SRC"))
{ //doesn't make sence, but silenced if you are switching between using a certain precompiler app used with CuTF.
}
else if (!QC_strcasecmp(qcc_token, "PROGS_DAT"))
{ //doesn't make sence, but silenced if you are switching between using a certain precompiler app used with CuTF.
extern char destfile[1024];
char olddest[1024];
Q_strlcpy(olddest, destfile, sizeof(olddest));
QCC_COM_Parse(msg);
QCC_Canonicalize(destfile, sizeof(destfile), qcc_token, compilingfile);
if (strcmp(destfile, olddest))
externs->Printf("Outputfile: %s\n", destfile);
}
else if (!QC_strcasecmp(qcc_token, "keyword") || !QC_strcasecmp(qcc_token, "flag"))
{
char *s;
int st;
s = QCC_COM_Parse(msg);
if (!QC_strcasecmp(qcc_token, "enable") || !QC_strcasecmp(qcc_token, "on"))
st = 1;
else if (!QC_strcasecmp(qcc_token, "disable") || !QC_strcasecmp(qcc_token, "off"))
st = 0;
else
{
QCC_PR_ParseWarning(WARN_BADPRAGMA, "compiler flag state not recognised");
st = -1;
}
if (st < 0)
QCC_PR_ParseWarning(WARN_BADPRAGMA, "warning id not recognised");
else
{
int f;
s = QCC_COM_Parse(s);
for (f = 0; compiler_flag[f].enabled; f++)
{
if (!QC_strcasecmp(compiler_flag[f].abbrev, qcc_token))
{
if (compiler_flag[f].flags & FLAG_MIDCOMPILE)
{
*compiler_flag[f].enabled = st;
if (compiler_flag[f].enabled == &flag_cpriority)
QCC_PrioritiseOpcodes();
}
else
QCC_PR_ParseWarning(WARN_BADPRAGMA, "Cannot enable/disable keyword/flag via a pragma");
break;
}
}
if (!compiler_flag[f].enabled)
QCC_PR_ParseWarning(WARN_BADPRAGMA, "keyword/flag %s not recognised", qcc_token);
}
}
else if (!QC_strcasecmp(qcc_token, "warning"))
{
int st;
char *s;
s = QCC_COM_Parse(msg);
if (!stricmp(qcc_token, "enable") || !stricmp(qcc_token, "on"))
st = WA_WARN;
else if (!stricmp(qcc_token, "disable") || !stricmp(qcc_token, "off") || !stricmp(qcc_token, "ignore"))
st = WA_IGNORE;
else if (!stricmp(qcc_token, "error"))
st = WA_ERROR;
else if (!stricmp(qcc_token, "toggle"))
st = 3;
else
{
QCC_PR_ParseWarning(WARN_BADPRAGMA, "warning state not recognised");
st = -1;
}
if (st>=0)
{
int wn;
s = QCC_COM_Parse(s);
wn = QCC_WarningForName(qcc_token);
if (wn < 0)
QCC_PR_ParseWarning(WARN_BADPRAGMA, "warning id not recognised");
else
{
if (st == 3) //toggle
qccwarningaction[wn] = !!qccwarningaction[wn];
else
qccwarningaction[wn] = st;
}
}
}
else
QCC_PR_ParseWarning(WARN_BADPRAGMA, "Unknown pragma \'%s\'", qcc_token);
}
return true;
}
return false;
}
/*
==============
PR_NewLine
Call at start of file and when *pr_file_p == '\n'
==============
*/
void QCC_PR_NewLine (pbool incomment)
{
pr_source_line++;
pr_line_start = pr_file_p;
while(*pr_file_p==' ' || *pr_file_p == '\t')
pr_file_p++;
if (incomment) //no constants if in a comment.
{
}
else if (QCC_PR_Precompiler())
{
}
// if (pr_dumpasm)
// PR_PrintNextLine ();
}
/*
==============
PR_LexString
Parses a quoted string
==============
*/
#if 0
void QCC_PR_LexString (void)
{
int c;
int len;
char tmpbuf[2048];
char *text;
char *oldf;
int oldline;
bool fromfile = true;
len = 0;
text = pr_file_p;
do
{
QCC_COM_Parse(text);
// print("Next token is \"%s\"\n", com_token);
if (*text == '\"')
{
text++;
if (fromfile) pr_file_p++;
}
do
{
c = *text++;
if (fromfile) pr_file_p++;
if (!c)
QCC_PR_ParseError ("EOF inside quote");
if (c=='\n')
QCC_PR_ParseError ("newline inside quote");
if (c=='\\')
{ // escape char
c = *text++;
if (fromfile) pr_file_p++;
if (!c)
QCC_PR_ParseError ("EOF inside quote");
if (c == 'n')
c = '\n';
else if (c == '"')
c = '"';
else if (c == '\\')
c = '\\';
else
QCC_PR_ParseError ("Unknown escape char");
}
else if (c=='\"')
{
if (fromfile) pr_file_p++;
break;
}
tmpbuf[len] = c;
len++;
} while (1);
tmpbuf[len] = 0;
// if (fromfile) pr_file_p++;
pr_immediate_type=NULL;
oldline=pr_source_line;
oldf=pr_file_p;
QCC_PR_Lex();
if (pr_immediate_type == &type_string)
{
// print("Appending \"%s\" to \"%s\"\n", pr_immediate_string, tmpbuf);
strcat(tmpbuf, pr_immediate_string);
len+=strlen(pr_immediate_string);
}
else
{
pr_source_line = oldline;
pr_file_p = oldf-1;
QCC_PR_LexWhitespace();
if (*pr_file_p != '\"') //annother string
break;
}
QCC_PR_LexWhitespace();
text = pr_file_p;
} while (1);
strcpy(pr_token, tmpbuf);
pr_token_type = tt_immediate;
pr_immediate_type = &type_string;
strcpy (pr_immediate_string, pr_token);
pr_immediate_strlen = strlen(pr_immediate_string);
// print("Found \"%s\"\n", pr_immediate_string);
}
#else
void QCC_PR_LexString (void)
{
unsigned int c, t;
int bytecount;
int len = 0;
char *end, *cnst;
int raw;
char rawdelim[64];
int stringtype;
//0 - quake output, input is 8bit. warnings when its not ascii. \u will still give utf-8 text, other chars as-is. Expect \s to screw everything up with utf-8 output.
//1 - quake output, input is utf-8. due to editors not supporting it, that generally means the input (ab)uses markup.
//2 - utf-8 output, input is utf-8. welcome to the future! unfortunately not the present.
int texttype;
pbool first = true;
for(;;)
{
raw = 0;
texttype = 0;
QCC_PR_LexWhitespace(false);
if (flag_qccx && *pr_file_p == ':')
{
pr_file_p++;
pr_token[len++] = 0;
continue;
}
if (*pr_file_p == 'R' && pr_file_p[1] == '\"')
{
/*R"delim(fo
o)delim" -> "fo\no"
the []
*/
raw = 1;
pr_file_p+=2;
while (1)
{
c = *pr_file_p++;
if (c == '(')
{
rawdelim[0] = ')';
break;
}
if (!c || raw >= sizeof(rawdelim)-1)
QCC_PR_ParseError (ERR_EOF, "EOF while parsing raw string delimiter. Expected: R\"delim(string)delim\"");
rawdelim[raw++] = c;
}
rawdelim[raw++] = '\"';
//these two conditions are generally part of the C preprocessor.
if (!strncmp(pr_file_p, "\\\r\n", 3))
{ //dos format
pr_file_p += 3;
pr_source_line++;
}
else if (!strncmp(pr_file_p, "\\\r", 2) || !strncmp(pr_file_p, "\\\n", 2))
{ //mac + unix format
pr_file_p += 2;
pr_source_line++;
}
stringtype = 0;
}
else if (*pr_file_p == 'Q' && pr_file_p[1] == '\"')
{ //quake output with utf-8 input (expect to need markup).
stringtype = 1;
pr_file_p+=2;
}
else if ((*pr_file_p == 'U' || *pr_file_p == 'u' || *pr_file_p == 'L') && pr_file_p[1] == '\"')
{ //unicode string, char32_t, char16_t, wchar_t respectively. we spit out utf-8 regardless.
QCC_PR_ParseWarning(WARN_NOTUTF8, "interpretting char32_t/char16_t/wchar_t as utf-8");
stringtype = 2;
pr_file_p+=2;
}
else if (*pr_file_p == 'u' && pr_file_p[1] == '8' && pr_file_p[2] == '\"')
{ //utf-8 string.
stringtype = 2;
pr_file_p+=3;
}
else if (*pr_file_p == '\"')
{
stringtype = flag_utf8strings?2:0;
pr_file_p++;
}
else if (first)
{
stringtype = 0;
QCC_PR_ParseError(ERR_BADCHARACTERCODE, "Expected string constant");
}
else
break;
first = false;
for(;;)
{
c = *pr_file_p++;
if (!c)
QCC_PR_ParseError (ERR_EOF, "EOF inside quote");
if (raw)
{
//raw strings contain very little parsing. just delimiter and initial \NL support.
if (c == rawdelim[0] && !strncmp(pr_file_p, rawdelim+1, raw-1))
{
pr_file_p += raw-1;
break;
}
//make sure line numbers are correct though.
if (c == '\r' && *pr_file_p != '\n')
pr_source_line++; //mac
if (c == '\n') //dos/unix
pr_source_line++;
goto forcebyte;
}
else
{
if (c=='\n')
QCC_PR_ParseError (ERR_INVALIDSTRINGIMMEDIATE, "newline inside quote");
if (c=='\\')
{ // escape char
c = *pr_file_p++;
if (!c)
QCC_PR_ParseError (ERR_EOF, "EOF inside quote");
if (c == 'n')
c = '\n';
else if (c == 'r')
c = '\r';
else if (c == '#') //avoid preqcc expansion in strings.
c = '#';
else if (c == '"')
c = '"';
else if (c == 't')
c = '\t'; //tab
else if (c == 'a')
c = '\a'; //bell
else if (c == 'v')
c = '\v'; //vertical tab
else if (c == 'f')
c = '\f'; //form feed
else if (c == 's' || c == 'b')
{
texttype ^= 0xe080;
continue;
}
//else if (c == 'b')
// c = '\b';
else if (c == '[')
c = 0xe010; //quake specific
else if (c == ']')
c = 0xe011; //quake specific
else if (c == '{')
{
int d;
c = 0;
while ((d = *pr_file_p++) != '}')
{
c = c * 10 + d - '0';
if (d < '0' || d > '9' || c > 255)
QCC_PR_ParseError(ERR_BADCHARACTERCODE, "Bad character code");
}
}
else if (c == '.')
c = 0xe01c | texttype;
else if (c == '<')
c = 0xe01d; //separator start
else if (c == '-')
c = 0xe01e; //separator middle
else if (c == '>')
c = 0xe01f; //separator end
else if (c == '(')
c = 0xe080; //slider start
else if (c == '=')
c = 0xe081; //slider middle
else if (c == ')')
c = 0xe082; //slider end
else if (c == '+')
c = 0xe083; //slider box
else if (c == 'u' || c == 'U')
{
//lower case u specifies exactly 4 nibbles.
//upper case U specifies exactly 8 nibbles.
unsigned int nibbles = (c=='u')?4:8;
c = 0;
while (nibbles --> 0)
{
t = (unsigned char)*pr_file_p;
if (t >= '0' && t <= '9')
c = (c*16) + (t - '0');
else if (t >= 'A' && t <= 'F')
c = (c*16) + (t - 'A') + 10;
else if (t >= 'a' && t <= 'f')
c = (c*16) + (t - 'a') + 10;
else
break;
pr_file_p++;
}
if (nibbles)
QCC_PR_ParseWarning(ERR_BADCHARACTERCODE, "Unicode character terminated unexpectedly");
goto forceutf8;
}
else if (c == 'x' || c == 'X')
{
int d;
c = 0;
d = (unsigned char)*pr_file_p++;
if (d >= '0' && d <= '9')
c += d - '0';
else if (d >= 'A' && d <= 'F')
c += d - 'A' + 10;
else if (d >= 'a' && d <= 'f')
c += d - 'a' + 10;
else
QCC_PR_ParseError(ERR_BADCHARACTERCODE, "Bad character code");
c *= 16;
d = (unsigned char)*pr_file_p++;
if (d >= '0' && d <= '9')
c += d - '0';
else if (d >= 'A' && d <= 'F')
c += d - 'A' + 10;
else if (d >= 'a' && d <= 'f')
c += d - 'a' + 10;
else
QCC_PR_ParseError(ERR_BADCHARACTERCODE, "Bad character code");
goto forcebyte;
}
else if (c == '\\')
c = '\\';
else if (c == '\'')
c = '\'';
else if (c >= '0' && c <= '9') //WARNING: This is not octal, but uses 'yellow' numbers instead (as on hud).
c = 0xe012 + c - '0';
else if (c == '\r')
{ //sigh
c = *pr_file_p++;
if (c != '\n')
QCC_PR_ParseWarning(WARN_HANGINGSLASHR, "Hanging \\\\\r");
pr_source_line++;
}
else if (c == '\n')
{ //sigh
pr_source_line++;
}
else
QCC_PR_ParseError (ERR_INVALIDSTRINGIMMEDIATE, "Unknown escape char %c", c);
}
else if (c=='\"')
{
break;
}
else if (c == '#')
{
for (end = pr_file_p; ; end++)
{
if (qcc_iswhite(*end))
break;
if (*end == ')'
|| *end == '('
|| *end == '+'
|| *end == '-'
|| *end == '*'
|| *end == '/'
|| *end == '\\'
|| *end == '|'
|| *end == '&'
|| *end == '='
|| *end == '^'
|| *end == '~'
|| *end == '['
|| *end == ']'
|| *end == '\"'
|| *end == '{'
|| *end == '}'
|| *end == ';'
|| *end == ':'
|| *end == ','
|| *end == '.'
|| *end == '#')
break;
}
c = *end;
*end = '\0';
cnst = QCC_PR_CheckCompConstString(pr_file_p);
if (cnst==pr_file_p)
cnst=NULL;
*end = c;
c = '#'; //undo
if (cnst)
{
QCC_PR_ParseWarning(WARN_MACROINSTRING, "Macro expansion in string");
if (len+strlen(cnst) >= sizeof(pr_token)-1)
QCC_Error(ERR_INVALIDSTRINGIMMEDIATE, "String length exceeds %i", sizeof(pr_token)-1);
strcpy(pr_token+len, cnst);
len+=strlen(cnst);
pr_file_p = end;
continue;
}
}
else if (c == 0x7C && flag_acc) //reacc support... reacc is strange.
c = '\n';
else
{
unsigned int cp = c;
unsigned int len = stringtype?utf8_check(pr_file_p-1, &cp):0;
if (!len)
{ //invalid utf-8 encoding? don't treat it as utf-8!
if (stringtype)
QCC_PR_ParseWarning(ERR_BADCHARACTERCODE, "Input string is not valid utf-8");
if (c >= ' ')
c |= texttype;
goto forcebyte;
}
if (texttype)
{
if (cp < ' ')
c = cp; //don't mask C0 chars like \t or \n
else if (cp < 0x80)
c = cp|0xe080; //DO mask other ascii chars (and map to the private-use range at the same time, because this isn't standard unicode any more)
else
{
QCC_PR_ParseWarning(ERR_BADCHARACTERCODE, "Unable to mask non-ascii chars. Attempting to mask bytes");
c |= texttype;
goto forcequake;
}
}
else
c = cp;
pr_file_p += len-1;
}
}
// if (c >= 0x20 && c < 0x80)
// c |= 0xe000; //TEST
if (stringtype == 2)
{ //we're outputting a utf-8 string.
forceutf8:
if (c > 0x10FFFFu) //RFC 3629 imposes the same limit as UTF-16 surrogate pairs.
QCC_PR_ParseWarning(WARN_NOTUTF8, "Bad unicode character code - codepoint is above 0x10FFFFu");
//figure out the count of bytes required to encode this char
bytecount = 1;
t = 0x80;
while (c >= t)
{
if (bytecount == 1)
t <<= 4;
else if (bytecount < 7)
t <<= 5;
else
t <<= 6;
bytecount++;
}
//error if needed
if (len+bytecount >= sizeof(pr_token))
QCC_Error(ERR_INVALIDSTRINGIMMEDIATE, "String length exceeds %i", sizeof(pr_token)-1);
//output it.
if (bytecount == 1)
pr_token[len++] = (unsigned char)(c&0x7f);
else
{
t = bytecount*6;
t = t-6;
pr_token[len++] = (unsigned char)((c>>t)&(0x0000007f>>bytecount)) | (0xffffff00 >> bytecount);
do
{
t = t-6;
pr_token[len++] = (unsigned char)((c>>t)&0x3f) | 0x80;
} while(t);
}
}
else
{
forcequake:
//we need to convert it to a quake char...
if (c >= 0xe000 && c <= 0xe0ff)
c = c & 0xff; //this private use range is commonly used for quake's glyphs.
else if (c >= 0 && c <= 0x7f)
; //FIXME: SOME c0 codes are known to quake, but many got reused for random glyphs. however I'm going to treat quake as full ascii.
else if (c >= 0x80)
{
//FIXME: spit it out as ^{xxxxxx} instead
QCC_PR_ParseWarning(WARN_NOTUTF8, "Cannot convert character to quake's charset");
}
forcebyte:
if (len >= sizeof(pr_token)-1)
QCC_Error(ERR_INVALIDSTRINGIMMEDIATE, "String length exceeds %i", sizeof(pr_token)-1);
pr_token[len] = c;
len++;
}
}
}
if (len > sizeof(pr_immediate_string)-1)
QCC_Error(ERR_INVALIDSTRINGIMMEDIATE, "String length exceeds %i", sizeof(pr_immediate_string)-1);
pr_token[len] = 0;
pr_token_type = tt_immediate;
pr_immediate_type = type_string;
memcpy(pr_immediate_string, pr_token, len+1);
pr_immediate_strlen = len;
/*if (qccwarningaction[WARN_NOTUTF8] && stringtype != 1)
{
unsigned int code;
size_t c;
for (c = 0; c < pr_immediate_strlen; )
{
len = utf8_check(&pr_token[c], &code);
if (!len || c+len>pr_immediate_strlen)
{
QCC_PR_ParseWarning(WARN_NOTUTF8, "String literal is not valid utf-8");
break;
}
c += len;
}
}*/
}
#endif
/*
==============
PR_LexNumber
==============
*/
int QCC_PR_LexInteger (void)
{
int c;
int len;
len = 0;
c = *pr_file_p;
if (pr_file_p[0] == '0' && (pr_file_p[1] == 'x' || pr_file_p[1] == 'X'))
{
pr_token[0] = '0';
pr_token[1] = 'x';
len = 2;
c = *(pr_file_p+=2);
}
do
{
pr_token[len] = c;
len++;
pr_file_p++;
c = *pr_file_p;
} while ((c >= '0' && c<= '9') || (c == '.'&&pr_file_p[1]!='.') || (c>='a' && c <= 'f'));
pr_token[len] = 0;
return atoi (pr_token);
}
#ifdef _MSC_VER
#define longlong __int64
#define LL(x) x##i64
#else
#define longlong long long
#define LL(x) x##ll
#endif
static void QCC_PR_LexNumber (void)
{
int tokenlen = 0;
longlong num=0;
int base=0;
int c;
int sign=1;
if (*pr_file_p == '-')
{
sign=-1;
pr_file_p++;
pr_token[tokenlen++] = '-';
}
if (pr_file_p[0] == '0' && (pr_file_p[1] == 'x' || pr_file_p[1] == 'X'))
{
pr_file_p+=2;
base = 16;
pr_token[tokenlen++] = '0';
pr_token[tokenlen++] = 'x';
}
pr_immediate_type = NULL;
//assume base 10 if not stated
if (!base)
base = 10;
while((c = *pr_file_p))
{
if (c >= '0' && c <= '9')
{
pr_token[tokenlen++] = c;
num*=base;
num += c-'0';
}
else if (c >= 'a' && c <= 'f' && base > 10)
{
pr_token[tokenlen++] = c;
num*=base;
num += c -'a'+10;
}
else if (c >= 'A' && c <= 'F' && base > 10)
{
pr_token[tokenlen++] = c;
num*=base;
num += c -'A'+10;
}
else if (c == '.' && pr_file_p[1]!='.')
{
pr_token[tokenlen++] = c;
pr_file_p++;
pr_immediate_type = type_float;
while(1)
{
c = *pr_file_p;
if (c >= '0' && c <= '9')
{
pr_token[tokenlen++] = c;
}
else if (c == 'f')
{
pr_file_p++;
break;
}
else
{
break;
}
pr_file_p++;
}
pr_token[tokenlen++] = 0;
pr_immediate._float = (float)atof(pr_token);
return;
}
else if (c == 'f')
{
pr_token[tokenlen++] = c;
pr_token[tokenlen++] = 0;
pr_file_p++;
pr_immediate_type = type_float;
pr_immediate._float = num*sign;
num*=sign;
if ((longlong)pr_immediate._float != (longlong)num)
QCC_PR_ParseWarning(WARN_OVERFLOW, "numerical overflow");
return;
}
else if (c == 'i' || c == 'u')
{
pr_token[tokenlen++] = c;
pr_token[tokenlen++] = 0;
pr_file_p++;
pr_immediate_type = type_integer;
pr_immediate._int = num*sign;
num*=sign;
if ((longlong)pr_immediate._int != (longlong)num)
{
if (((longlong)pr_immediate._int & LL(0xffffffff80000000)) != LL(0xffffffff80000000))
QCC_PR_ParseWarning(WARN_OVERFLOW, "numerical overflow");
}
return;
}
else
break;
pr_file_p++;
}
pr_token[tokenlen++] = 0;
if (!pr_immediate_type)
{
//float f = num;
if (flag_assume_integer)// || (base != 10 && sign > 0 && (long long)f != (long long)num))
pr_immediate_type = type_integer;
else if (flag_qccx && base == 16)
{
pr_immediate_type = type_float;
goto qccxhex;
}
else
pr_immediate_type = type_float;
}
if (pr_immediate_type == type_integer)
{
pr_immediate_type = type_integer;
qccxhex:
pr_immediate._int = num*sign;
num*=sign;
if ((longlong)pr_immediate._int != (longlong)num)
{
if (((longlong)pr_immediate._int & LL(0xffffffff80000000)) != LL(0xffffffff80000000))
QCC_PR_ParseWarning(WARN_OVERFLOW, "numerical overflow");
}
}
else
{
pr_immediate_type = type_float;
// at this point, we know there's no . in it, so the NaN bug shouldn't happen
// and we cannot use atof on tokens like 0xabc, so use num*sign, it SHOULD be safe
//pr_immediate._float = atof(pr_token);
pr_immediate._float = (float)(num*sign);
num*=sign;
if ((longlong)pr_immediate._float != (longlong)num && base == 16)
QCC_PR_ParseWarning(WARN_OVERFLOW, "numerical overflow %lld will be rounded to %f", num, pr_immediate._float);
}
}
static float QCC_PR_LexFloat (void)
{
int c;
int len;
len = 0;
c = *pr_file_p;
do
{
pr_token[len] = c;
len++;
pr_file_p++;
c = *pr_file_p;
} while ((c >= '0' && c<= '9') || (c == '.'&&pr_file_p[1]!='.')); //only allow a . if the next isn't too...
if (*pr_file_p == 'f')
pr_file_p++;
pr_token[len] = 0;
return (float)atof (pr_token);
}
/*
==============
PR_LexVector
Parses a single quoted vector
==============
*/
static void QCC_PR_LexVector (void)
{
int i;
pr_file_p++;
if (*pr_file_p == '\\')
{//extended character constant
pr_token_type = tt_immediate;
pr_immediate_type = type_float;
pr_file_p++;
switch(*pr_file_p)
{
case 'n':
pr_immediate._float = '\n';
break;
case 'r':
pr_immediate._float = '\r';
break;
case 't':
pr_immediate._float = '\t';
break;
case '\'':
pr_immediate._float = '\'';
break;
case '\"':
pr_immediate._float = '\"';
break;
case '\\':
pr_immediate._float = '\\';
break;
default:
QCC_PR_ParseError (ERR_INVALIDVECTORIMMEDIATE, "Bad character constant");
}
pr_file_p++;
if (*pr_file_p != '\'')
QCC_PR_ParseError (ERR_INVALIDVECTORIMMEDIATE, "Bad character constant");
pr_file_p++;
return;
}
if (pr_file_p[1] == '\'')
{//character constant
pr_token_type = tt_immediate;
pr_immediate_type = type_float;
if (flag_qccx)
{
QCC_PR_ParseWarning(WARN_DENORMAL, "char constant: denormal");
pr_immediate._int = pr_file_p[0];
}
else
pr_immediate._float = pr_file_p[0];
pr_file_p+=2;
return;
}
pr_token_type = tt_immediate;
pr_immediate_type = type_vector;
QCC_PR_LexWhitespace (false);
for (i=0 ; i<3 ; i++)
{
pr_immediate.vector[i] = QCC_PR_LexFloat ();
QCC_PR_LexWhitespace (false);
if (*pr_file_p == '\'' && i == 1)
{
if (i < 2)
QCC_PR_ParseWarning (WARN_FTE_SPECIFIC, "2d vector");
for (i++ ; i<3 ; i++)
pr_immediate.vector[i] = 0;
break;
}
}
if (*pr_file_p != '\'')
QCC_PR_ParseError (ERR_INVALIDVECTORIMMEDIATE, "Bad vector");
pr_file_p++;
}
/*
==============
PR_LexName
Parses an identifier
==============
*/
static void QCC_PR_LexName (void)
{
unsigned int c;
int len;
len = 0;
do
{
int b = utf8_check(pr_file_p, &c);
if (!b)
{
unsigned char lead = *pr_file_p++;
char *o;
while(*pr_file_p && !utf8_check(pr_file_p, &c))
pr_file_p++;
o = pr_file_p;
while (qcc_iswhite(*pr_file_p))
{
if (*pr_file_p == '\n')
break;
pr_file_p++;
}
if (*pr_file_p == '\n')
QCC_PR_ParseError(ERR_NOTANAME, "Invalid UTF-8 code sequence at end of line. Lead byte was %#2x", lead);
else
{
len = 0;
while (*pr_file_p && !qcc_iswhite(*pr_file_p))
pr_token[len++] = *pr_file_p++;
pr_token[len++] = 0;
pr_file_p = o;
QCC_PR_ParseError(ERR_NOTANAME, "Invalid UTF-8 code sequence before %s. Lead byte was %#2x", pr_token, lead);
}
return;
}
while(b-->0)
{
pr_token[len] = *pr_file_p++;
len++;
}
c = *pr_file_p;
} while ( (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c == '_'
|| (c >= '0' && c <= '9') || (c & 0x80));
pr_token[len] = 0;
pr_token_type = tt_name;
}
/*
==============
PR_LexPunctuation
==============
*/
static void QCC_PR_LexPunctuation (void)
{
int i;
int len;
char *p;
pr_token_type = tt_punct;
if (pr_file_p[0] == '*' && pr_file_p[1] == '*' && flag_dblstarexp)
{ //for compat with gmqcc. fteqcc uses *^ internally (which does not conflict with multiplying by dereferenced pointers - sucks for MSCLR c++ syntax)
QCC_PR_ParseWarning(WARN_GMQCC_SPECIFIC, "** is unsafe around pointers, use *^ instead.", pr_token);
strcpy (pr_token, "*^");
pr_file_p += 2;
return;
}
for (i=0 ; (p = pr_punctuation[i]) != NULL ; i++)
{
len = strlen(p);
if (!strncmp(p, pr_file_p, len) )
{
strcpy (pr_token, pr_punctuationremap[i]);
if (p[0] == '{')
pr_bracelevel++;
else if (p[0] == '}')
pr_bracelevel--;
pr_file_p += len;
return;
}
}
if ((unsigned char)*pr_file_p == (unsigned char)'\\' && pr_file_p[1] == '\r' && pr_file_p[2] == '\n')
pr_file_p+=3;
else if ((unsigned char)*pr_file_p == (unsigned char)'\\' && (pr_file_p[1] == '\r' || pr_file_p[1] == '\n'))
pr_file_p+=2;
else
{
if ((unsigned char)*pr_file_p == (unsigned char)0xa0)
QCC_PR_ParseWarning (ERR_UNKNOWNPUCTUATION, "Unsupported punctuation: '\\x%x' - non-breaking space", (unsigned char)*pr_file_p);
else
QCC_PR_ParseWarning (ERR_UNKNOWNPUCTUATION, "Unknown punctuation: '\\x%x'", *pr_file_p);
pr_file_p++;
}
QCC_PR_Lex();
}
/*
==============
PR_LexWhitespace
==============
*/
void QCC_PR_LexWhitespace (pbool inhibitpreprocessor)
{
int c;
while (1)
{
// skip whitespace
while ((c = *pr_file_p) && qcc_iswhite(c))
{
if (qcc_islineending(c, pr_file_p[1]))
{
pr_file_p++;
if (!inhibitpreprocessor)
QCC_PR_NewLine (false);
else
pr_source_line++;
if (!pr_file_p)
return;
}
else
pr_file_p++;
}
if (c == 0)
return; // end of file
// skip // comments
if (c=='/' && pr_file_p[1] == '/')
{
while (*pr_file_p && !qcc_islineending(pr_file_p[0], pr_file_p[1]))
pr_file_p++;
if (*pr_file_p)
pr_file_p++; //don't break on eof.
if (!inhibitpreprocessor)
QCC_PR_NewLine(false);
else
pr_source_line++;
continue;
}
// skip /* */ comments
if (c=='/' && pr_file_p[1] == '*')
{
pr_file_p+=1;
do
{
pr_file_p++;
if (qcc_islineending(pr_file_p[0], pr_file_p[1]))
{
if (!inhibitpreprocessor)
QCC_PR_NewLine(true);
else
pr_source_line++;
}
if (pr_file_p[1] == 0)
{
QCC_PR_ParseError(0, "EOF inside comment\n");
pr_file_p++;
return;
}
if (pr_file_p[0] == '/' && pr_file_p[1] == '*')
QCC_PR_ParseWarning(WARN_NESTEDCOMMENT, "\"/*\" inside comment");
} while (pr_file_p[0] != '*' || pr_file_p[1] != '/');
pr_file_p+=2;
continue;
}
break; // a real character has been found
}
}
//============================================================================
#define MAX_FRAMES 8192
char pr_framemodelname[64];
struct
{
char name[64];
int value;
const char *file; //compare to s_filen to see if its current or not
} pr_framemacro[MAX_FRAMES];
int pr_nummacros;
int pr_macrovalue; //next value to use
int pr_savedmacro; //for sub-groups.
void QCC_PR_ClearGrabMacros (pbool newfile)
{
if (!newfile)
pr_nummacros = 0;
pr_macrovalue = 0;
pr_savedmacro = -1;
}
static int QCC_PR_FindMacro (char *name)
{
int i;
for (i=pr_nummacros-1 ; i>=0 ; i--)
{
if (!STRCMP (name, pr_framemacro[i].name))
{
if (pr_framemacro[i].file != s_filen)
QCC_PR_ParseWarning(WARN_STALEMACRO, "Stale macro used (%s, defined in %s)", pr_token, pr_framemacro[i].file);
return pr_framemacro[i].value;
}
}
for (i=pr_nummacros-1 ; i>=0 ; i--)
{
if (!stricmp (name, pr_framemacro[i].name))
{
QCC_PR_ParseWarning(WARN_CASEINSENSITIVEFRAMEMACRO, "Case insensitive frame macro (using %s)", pr_framemacro[i].name);
if (pr_framemacro[i].file != s_filen)
QCC_PR_ParseWarning(WARN_STALEMACRO, "Stale macro used (%s, defined in %s)", pr_token, pr_framemacro[i].file);
return pr_framemacro[i].value;
}
}
return -1;
}
static void QCC_PR_ExpandMacro(void)
{
int i = QCC_PR_FindMacro(pr_token);
if (i < 0)
QCC_PR_ParseError (ERR_BADFRAMEMACRO, "Unknown frame macro $%s", pr_token);
QC_snprintfz(pr_token, sizeof(pr_token),"%d", i);
pr_token_type = tt_immediate;
pr_immediate_type = type_float;
pr_immediate._float = (float)i;
}
pbool QCC_PR_SimpleGetString(void)
{
int c;
int i = 0;
char *f;
pr_token[0] = 0;
// skip whitespace
while ((c = *pr_file_p) && qcc_iswhite(c))
{
if (c=='\n')
return false;
pr_file_p++;
}
if (c == 0) //eof
return false;
//abort if there's a comment.
if (pr_file_p[0] == '/')
{
if (pr_file_p[1] == '/')
{ //comment alert
while(*pr_file_p && *pr_file_p != '\n')
pr_file_p++;
return false;
}
if (pr_file_p[1] == '*')
return false;
}
if (*pr_file_p != '\"')
return false; //nope, not a string.
f = pr_file_p+1;
while (*f)
{
if (*f == '\n' || !*f)
{ //bad string
QCC_Error (ERR_INTERNAL, "new line inside string");
pr_token[0] = 0;
return false;
}
if (*f == '\"')
{ //end-of-string
pr_token[i] = 0;
pr_file_p = f+1;
return false;
}
if (i == sizeof(qcc_token)-1)
QCC_Error (ERR_INTERNAL, "token exceeds %i chars", i);
if (*f == '\\')
{
f++;
if (!*f)
f = "";
else if (*f == 'n')
{
pr_token[i++] = '\n';
f++;
}
else if (*f == 'r')
{
pr_token[i++] = '\r';
f++;
}
else if (*f == 't')
{
pr_token[i++] = '\t';
f++;
}
else
pr_token[i++] = *f++;
}
else
pr_token[i++] = *f++;
}
return true;
}
// just parses text, returning false if an eol is reached
pbool QCC_PR_SimpleGetToken (void)
{
int c;
int i;
pr_token[0] = 0;
// skip whitespace
while ((c = *pr_file_p) && qcc_iswhite(c))
{
if (c=='\n')
return false;
pr_file_p++;
}
if (c == 0) //eof
return false;
if (pr_file_p[0] == '/')
{
if (pr_file_p[1] == '/')
{ //comment alert
while(*pr_file_p && *pr_file_p != '\n')
pr_file_p++;
return false;
}
if (pr_file_p[1] == '*')
return false;
}
i = 0;
while ((c = *pr_file_p) && !qcc_iswhite(c) && c != ',' && c != ';' && c != ')' && c != '(' && c != ']' && !(c == '/' && pr_file_p[1] == '/'))
{
if (i == sizeof(qcc_token)-1)
QCC_Error (ERR_INTERNAL, "token exceeds %i chars", i);
pr_token[i] = c;
i++;
pr_file_p++;
}
pr_token[i] = 0;
return i!=0;
}
static pbool QCC_PR_LexMacroName(void)
{
int c;
int i;
pr_token[0] = 0;
// skip whitespace
while ((c = *pr_file_p) && qcc_iswhite(c))
{
if (c=='\n')
return false;
pr_file_p++;
}
if (!c)
return false;
if (pr_file_p[0] == '/')
{
if (pr_file_p[1] == '/')
{ //comment alert
while(*pr_file_p && *pr_file_p != '\n')
pr_file_p++;
return false;
}
if (pr_file_p[1] == '*')
return false;
}
i = 0;
while ( (c = *pr_file_p) > ' ' && c != '\n' && c != ',' && c != ';' && c != '&' && c != '|' && c != ')' && c != '(' && c != ']' && !(pr_file_p[0] == '.' && pr_file_p[1] == '.'))
{
if (i == sizeof(qcc_token)-1)
QCC_Error (ERR_INTERNAL, "token exceeds %i chars", i);
pr_token[i] = c;
i++;
pr_file_p++;
}
pr_token[i] = 0;
return i!=0;
}
static void QCC_PR_MacroFrame(char *name, int value, pbool force)
{
int i;
for (i=pr_nummacros-1 ; i>=0 ; i--)
{
if (!STRCMP (name, pr_framemacro[i].name))
{
//vanilla macro behaviour is to not realise that there's dupes. lookups find the first, so dupes end up as dead gaps.
//our caller incremented the value externally
//so warn+ignore if its from the same file
if (pr_framemacro[i].file == s_filen && !force)
QCC_PR_ParseWarning(WARN_DUPLICATEMACRO, "Duplicate macro defined (%s). Rename it.", pr_token);
else
{
pr_framemacro[i].value = value; //old file, override it, whatever the old value was is redundant now
pr_framemacro[i].file = s_filen;
}
return;
}
}
if (strlen(name)+1 > sizeof(pr_framemacro[0].name))
QCC_PR_ParseWarning(ERR_TOOMANYFRAMEMACROS, "Name for frame macro %s is too long", name);
else
{
strcpy (pr_framemacro[pr_nummacros].name, name);
pr_framemacro[pr_nummacros].value = value;
pr_framemacro[pr_nummacros].file = s_filen;
pr_nummacros++;
if (pr_nummacros >= MAX_FRAMES)
QCC_PR_ParseError(ERR_TOOMANYFRAMEMACROS, "Too many frame macros defined");
}
}
static void QCC_PR_ParseFrame (void)
{
while (QCC_PR_LexMacroName ())
{
QCC_PR_MacroFrame(pr_token, pr_macrovalue++, false);
}
}
/*
==============
PR_LexGrab
Deals with counting sequence numbers and replacing frame macros
==============
*/
static void QCC_PR_LexGrab (void)
{
pr_file_p++; // skip the $
// if (!QCC_PR_SimpleGetToken ())
// QCC_PR_ParseError ("hanging $");
if (qcc_iswhite(*pr_file_p))
QCC_PR_ParseError (ERR_BADFRAMEMACRO, "hanging $");
QCC_PR_LexMacroName();
if (!*pr_token)
QCC_PR_ParseError (ERR_BADFRAMEMACRO, "hanging $");
// check for $frame
if (!STRCMP (pr_token, "frame") || !STRCMP (pr_token, "framesave"))
{
QCC_PR_ParseFrame ();
QCC_PR_Lex ();
}
// ignore other known $commands - just for model/spritegen
else if (!STRCMP (pr_token, "cd")
|| !STRCMP (pr_token, "origin")
|| !STRCMP (pr_token, "base")
|| !STRCMP (pr_token, "flags")
|| !STRCMP (pr_token, "scale")
|| !STRCMP (pr_token, "skin") )
{ // skip to end of line
while (QCC_PR_LexMacroName ())
;
QCC_PR_Lex ();
}
else if (!STRCMP (pr_token, "flush"))
{
QCC_PR_ClearGrabMacros(true);
while (QCC_PR_LexMacroName ())
;
QCC_PR_Lex ();
}
else if (!STRCMP (pr_token, "framevalue"))
{
QCC_PR_LexMacroName ();
pr_macrovalue = atoi(pr_token);
QCC_PR_Lex ();
}
else if (!STRCMP (pr_token, "framerestore"))
{
QCC_PR_LexMacroName ();
QCC_PR_ExpandMacro();
pr_macrovalue = (int)pr_immediate._float;
QCC_PR_Lex ();
}
else if (!STRCMP (pr_token, "modelname"))
{
int i;
QCC_PR_LexMacroName ();
if (*pr_framemodelname)
QCC_PR_MacroFrame(pr_framemodelname, pr_macrovalue, true);
QC_strlcpy(pr_framemodelname, pr_token, sizeof(pr_framemodelname));
i = QCC_PR_FindMacro(pr_framemodelname);
if (i)
pr_macrovalue = i;
else
i = 0;
QCC_PR_Lex ();
}
// look for a frame name macro
else
QCC_PR_ExpandMacro ();
}
//===========================
//compiler constants - dmw
pbool QCC_PR_UndefineName(char *name)
{
// int a;
CompilerConstant_t *c;
c = pHash_Get(&compconstantstable, name);
if (!c)
{
QCC_PR_ParseWarning(WARN_UNDEFNOTDEFINED, "Precompiler constant %s was not defined", name);
return false;
}
Hash_Remove(&compconstantstable, name);
return true;
}
CompilerConstant_t *QCC_PR_DefineName(char *name)
{
int i;
CompilerConstant_t *cnst;
if (strlen(name) >= MAXCONSTANTNAMELENGTH || !*name)
QCC_PR_ParseError(ERR_NAMETOOLONG, "Compiler constant name length is too long or short");
cnst = pHash_Get(&compconstantstable, name);
if (cnst)
{
QCC_PR_ParseWarning(WARN_DUPLICATEDEFINITION, "Duplicate definition for Precompiler constant %s", name);
Hash_Remove(&compconstantstable, name);
}
cnst = qccHunkAlloc(sizeof(CompilerConstant_t));
cnst->used = false;
cnst->numparams = -1;
cnst->evil = false;
strcpy(cnst->name, name);
cnst->namelen = strlen(name);
cnst->value = cnst->name + strlen(cnst->name);
for (i = 0; i < MAXCONSTANTPARAMS; i++)
cnst->params[i][0] = '\0';
pHash_Add(&compconstantstable, cnst->name, cnst, qccHunkAlloc(sizeof(bucket_t)));
return cnst;
}
void QCC_PR_PreProcessor_Define(pbool append)
{
char *d;
char *dbuf;
int dbuflen;
char *s;
int quote=false;
pbool preprocessorhack = false;
CompilerConstant_t *cnst, *oldcnst;
QCC_PR_SimpleGetToken ();
if (!QCC_PR_SimpleGetToken ())
QCC_PR_ParseError(ERR_NONAME, "No name defined for compiler constant");
oldcnst = pHash_Get(&compconstantstable, pr_token);
if (oldcnst)
Hash_Remove(&compconstantstable, oldcnst->name);
cnst = QCC_PR_DefineName(pr_token);
if (*pr_file_p == '(')
{
cnst->numparams = 0;
pr_file_p++;
while(qcc_iswhitesameline(*pr_file_p))
pr_file_p++;
s = pr_file_p;
for (;;)
{
if (*pr_file_p == ',' || *pr_file_p == ')')
{
int nl;
nl = pr_file_p-s;
while(qcc_iswhitesameline(s[nl]))
nl--;
if (cnst->numparams >= MAXCONSTANTPARAMS)
QCC_PR_ParseError(ERR_MACROTOOMANYPARMS, "May not have more than %i parameters to a macro", MAXCONSTANTPARAMS);
if (nl >= MAXCONSTANTPARAMLENGTH)
QCC_PR_ParseError(ERR_MACROTOOMANYPARMS, "parameter name is too long (max %i)", MAXCONSTANTPARAMLENGTH);
if (nl == 3 && s[0] == '.' && s[1] == '.' && s[2] == '.')
{
cnst->varg = true;
if (*pr_file_p != ')')
QCC_PR_ParseError(ERR_MACROTOOMANYPARMS, "varadic argument must be last");
}
else
{
memcpy(cnst->params[cnst->numparams], s, nl);
cnst->params[cnst->numparams][nl] = '\0';
for (nl = 0; nl < cnst->numparams; nl++)
{
if (!strcmp(cnst->params[nl], cnst->params[cnst->numparams]))
QCC_PR_ParseError(ERR_MACROTOOMANYPARMS, "duplicate macro paramter name '%s'", cnst->params[nl]);
}
cnst->numparams++;
}
if (*pr_file_p++ == ')')
break;
while(qcc_iswhitesameline(*pr_file_p))
pr_file_p++;
s = pr_file_p;
}
if(!*pr_file_p++)
{
QCC_PR_ParseError(ERR_EXPECTED, "missing ) in macro parameter list");
break;
}
}
}
else cnst->numparams = -1;
//disable append mode if they're trying to do something stupid
if (append)
{
if (!oldcnst)
append = false; //append with no previous define is treated as just a regular define. huzzah.
else if (cnst->numparams != oldcnst->numparams || cnst->varg != oldcnst->varg)
{
QCC_PR_ParseWarning(WARN_DUPLICATEPRECOMPILER, "different number of macro arguments in macro append");
append = false;
}
else
{
int i;
//arguments need to be specified, if only so that appends with arguments are still vaugely readable.
//argument names need to match because the expansion is too lame to cope if they're different.
for (i = 0; i < cnst->numparams; i++)
{
if (strcmp(cnst->params[i], oldcnst->params[i]))
break;
}
if (i < cnst->numparams)
{
QCC_PR_ParseWarning(WARN_DUPLICATEPRECOMPILER, "arguments differ in macro append");
append = false;
}
else
append = true;
}
}
s = pr_file_p;
d = dbuf = NULL;
dbuflen = 0;
if (append)
{
//start with the old value
int olen = strlen(oldcnst->value);
dbuflen = olen + 128;
dbuf = qccHunkAlloc(dbuflen);
memcpy(dbuf, oldcnst->value, olen);
d = dbuf + olen;
*d++ = ' ';
}
cnst->fromfile = s_filen;
cnst->fromline = pr_source_line;
while(*s == ' ' || *s == '\t')
s++;
while(1)
{
if ((d - dbuf) + 2 >= dbuflen)
{
int len = d - dbuf;
dbuflen = (len+128) * 2;
dbuf = qccHunkAlloc(dbuflen);
memcpy(dbuf, d - len, len);
d = dbuf + len;
}
if( *s == '\\' )
{
// read over a newline if necessary
if( s[1] == '\n' || s[1] == '\r' )
{
char *exploitcheck;
s++; //skip the \ char
if (*s == '\r' && s[1] == '\n')
s++; //skip the \r. the \n will become part of the macro.
QCC_PR_NewLine(true);
/*
This began as a bug. It is still evil, but its oh so useful.
In C,
#define foobar \
foo\
bar\
moo
becomes foobarmoo, not foo\nbar\nmoo
#define hacks however, require that it becomes
foo\nbar\nmoo
# cannot be used on the first line of the macro, and then is only valid as the first non-white char of the following lines
so if present, the preceeding \\\n and following \\\n must become an actual \n instead of being stripped.
*/
for (exploitcheck = s; *exploitcheck && qcc_iswhitesameline(*exploitcheck); exploitcheck++)
;
if (*exploitcheck == '#')
{
*d++ = '\n';
if (!cnst->evil)
QCC_PR_ParseWarning(WARN_EVILPREPROCESSOR, "preprocessor directive within preprocessor macro %s", cnst->name);
cnst->evil = true;
preprocessorhack = true;
}
else if (preprocessorhack)
{
*d++ = '\n';
preprocessorhack = false;
}
}
}
else if(*s == '\r' || *s == '\n' || *s == '\0')
{
break;
}
if (!quote && s[0]=='/'&&s[1]=='/')
break; //c++ style comments can just be ignored
if (!quote && s[0]=='/'&&s[1]=='*')
{ //multi-line c style comments become part of the define itself. this also negates the need for \ at the end of lines.
//although we don't bother embedding.
s+=2;
for(;;)
{
if (!s[0])
{
QCC_PR_ParseWarning(WARN_DUPLICATEPRECOMPILER, "EOF inside quote in define %s", cnst->name);
break;
}
if (s[0]=='*'&&s[1]=='/')
{
s+=2;
break;
}
if (s[0] == '\n')
pr_source_line++;
s++;
}
continue;
}
if (*s == '\"')
quote=!quote;
*d = *s;
d++;
s++;
}
*d = '\0';
cnst->value = dbuf;
if (oldcnst && !append)
{ //we always warn if it was already defined
//we use different warning codes so that -Wno-mundane can be used to ignore identical redefinitions.
if (strcmp(oldcnst->value, cnst->value))
QCC_PR_ParseWarning(WARN_DUPLICATEPRECOMPILER, "Alternate precompiler definition of %s", pr_token);
else
QCC_PR_ParseWarning(WARN_IDENTICALPRECOMPILER, "Identical precompiler definition of %s", pr_token);
}
pr_file_p = s;
}
/* *buffer, *bufferlen and *buffermax should be NULL/0 at the start */
static void QCC_PR_ExpandStrCat(char **buffer, size_t *bufferlen, size_t *buffermax, char *newdata, size_t newlen)
{
size_t newmax = *bufferlen + newlen;
if (newmax < *bufferlen)//check for overflow
{
QCC_PR_ParseWarning(ERR_INTERNAL, "exceeds 4gb");
return;
}
if (newmax > *buffermax)
{
char *newbuf;
if (newmax < 64)
newmax = 64;
if (newmax < *bufferlen * 2)
{
newmax = *bufferlen * 2;
if (newmax < *bufferlen) /*overflowed?*/
{
QCC_PR_ParseWarning(ERR_INTERNAL, "exceeds 4gb");
return;
}
}
newbuf = realloc(*buffer, newmax);
if (!newbuf)
{
QCC_PR_ParseWarning(ERR_INTERNAL, "out of memory");
return; /*OOM*/
}
*buffer = newbuf;
*buffermax = newmax;
}
memcpy(*buffer + *bufferlen, newdata, newlen);
*bufferlen += newlen;
/*no null terminator, remember to cat one if required*/
}
/* *buffer, *bufferlen and *buffermax should be NULL/0 at the start */
static void QCC_PR_ExpandStrCatMarkup(char **buffer, size_t *bufferlen, size_t *buffermax, char *newdata, size_t newlen)
{
size_t newmax = *bufferlen + newlen*2;
if (newmax < *bufferlen)//check for overflow
{
QCC_PR_ParseWarning(ERR_INTERNAL, "exceeds 4gb");
return;
}
if (newmax > *buffermax)
{
char *newbuf;
if (newmax < 64)
newmax = 64;
if (newmax < *bufferlen * 2)
{
newmax = *bufferlen * 2;
if (newmax < *bufferlen) /*overflowed?*/
{
QCC_PR_ParseWarning(ERR_INTERNAL, "exceeds 4gb");
return;
}
}
newbuf = realloc(*buffer, newmax);
if (!newbuf)
{
QCC_PR_ParseWarning(ERR_INTERNAL, "out of memory");
return; /*OOM*/
}
*buffer = newbuf;
*buffermax = newmax;
}
while (newlen--)
{
if (*newdata == '\n')
{
(*buffer)[*bufferlen+0] = '\\';
(*buffer)[*bufferlen+1] = '\n';
*bufferlen += 2;
}
else if (*newdata == '\\')
{
(*buffer)[*bufferlen+0] = '\\';
(*buffer)[*bufferlen+1] = '\\';
*bufferlen += 2;
}
else if (*newdata == '\0')
{
(*buffer)[*bufferlen+0] = '\\';
(*buffer)[*bufferlen+1] = '0';
*bufferlen += 2;
}
else if (*newdata == '\"')
{
(*buffer)[*bufferlen+0] = '\\';
(*buffer)[*bufferlen+1] = '\"';
*bufferlen += 2;
}
else
{
(*buffer)[*bufferlen] = *newdata;
*bufferlen += 1;
}
newdata++;
}
/*no null terminator, remember to cat one if required*/
}
static const struct tm *QCC_CurrentTime(void)
{
//if SOURCE_DATE_EPOCH environment is defined, use that as seconds from epoch (and show utc)
//this helps give reproducable builds (which is for some debian project, demonstrating that noone is hacking binaries).
const char *env = getenv("SOURCE_DATE_EPOCH");
time_t t;
if (env && *env)
{
t = strtoull(env, NULL, 0);
if (t)
return gmtime(&t);
}
t = time(NULL);
return localtime(&t);
}
static char *QCC_PR_CheckBuiltinCompConst(char *constname, char *retbuf, size_t retbufsize)
{
if (constname[0] != '_' || constname[1] != '_')
return NULL;
if (!strcmp(constname, "__TIME__"))
{
strftime( retbuf, retbufsize, "\"%H:%M\"", QCC_CurrentTime());
return retbuf;
}
if (!strcmp(constname, "__DATE__"))
{
strftime( retbuf, retbufsize, "\"%a %d %b %Y\"", QCC_CurrentTime());
return retbuf;
}
if (!strcmp(constname, "__RAND__"))
{
QC_snprintfz(retbuf, retbufsize, "%i", rand());
return retbuf;
}
if (!strcmp(constname, "__QCCVER__"))
{
#ifdef SVNVERSION
if (strcmp(SVNVERSION, "-"))
return "FTEQCC " STRINGIFY(SVNVERSION);
#endif
return "\"FTEQCC "__DATE__","__TIME__"\"";
}
if (!strcmp(constname, "__FILE__"))
{
char *erk;
QC_snprintfz(retbuf, retbufsize, "\"%s\"", s_filen);
erk = strchr(retbuf, ':');
if (erk)
{
erk[0] = '\"';
erk[1] = 0;
}
return retbuf;
}
if (!strcmp(constname, "__LINE__"))
{
QC_snprintfz(retbuf, retbufsize, "%i", pr_source_line);
return retbuf;
}
if (!strcmp(constname, "__LINESTR__"))
{
QC_snprintfz(retbuf, retbufsize, "\"%i\"", pr_source_line);
return retbuf;
}
if (!strcmp(constname, "__FUNC__") || !strcmp(constname, "__func__"))
{
QC_snprintfz(retbuf, retbufsize, "\"%s\"",pr_scope?pr_scope->name:"<NO FUNCTION>");
return retbuf;
}
if (!strcmp(constname, "__NULL__"))
{
return "0i";
}
return NULL; //didn't match
}
static pbool QCC_PR_ExpandPreProcessorMacro(CompilerConstant_t *c, char **buffer, size_t *bufferlen, size_t *buffermax)
{
int p;
char *start;
char *starttok;
char *argsend;
int argsendline;
size_t whitestart;
char *paramoffset[MAXCONSTANTPARAMS+1];
int param=0, extraparam=0;
int plevel=0;
pbool noargexpand;
char *end;
char retbuf[256];
pr_file_p++;
QCC_PR_LexWhitespace(false);
start = pr_file_p;
while(1)
{
// handle strings correctly by ignoring them
if (*pr_file_p == '\"')
{
do {
pr_file_p++;
} while( (pr_file_p[-1] == '\\' || pr_file_p[0] != '\"') && *pr_file_p && *pr_file_p != '\n' );
}
if (*pr_file_p == '(')
plevel++;
else if (!plevel && (*pr_file_p == ',' || *pr_file_p == ')'))
{
if (*pr_file_p == ',' && c->varg && param >= c->numparams)
extraparam++; //skip extra trailing , arguments if we're varging.
else
{
paramoffset[param++] = start;
start = pr_file_p+1;
if (*pr_file_p == ')')
{
*pr_file_p = '\0';
pr_file_p++;
break;
}
*pr_file_p = '\0';
pr_file_p++;
QCC_PR_LexWhitespace(false);
start = pr_file_p;
// move back by one char because we move forward by one at the end of the loop
pr_file_p--;
if (param == MAXCONSTANTPARAMS || param > c->numparams)
QCC_PR_ParseError(ERR_TOOMANYPARAMS, "Too many parameters in macro call");
}
} else if (*pr_file_p == ')' )
plevel--;
else if(*pr_file_p == '\n')
QCC_PR_NewLine(false);
// see that *pr_file_p = '\0' up there? Must ++ BEFORE checking for !*pr_file_p
pr_file_p++;
if (!*pr_file_p)
QCC_PR_ParseError(ERR_EOF, "EOF on macro call");
}
if (param < c->numparams)
QCC_PR_ParseError(ERR_TOOFEWPARAMS, "Not enough macro parameters");
paramoffset[param] = start;
*buffer = NULL;
*bufferlen = 0;
*buffermax = 0;
// QCC_PR_LexWhitespace(false);
argsend = pr_file_p;
argsendline = pr_source_line;
pr_file_p = c->value;
for(;;)
{
noargexpand = false;
whitestart = *bufferlen;
starttok = pr_file_p;
/*while(qcc_iswhite(*pr_file_p)) //copy across whitespace
{
if (!*pr_file_p)
break;
pr_file_p++;
}*/
QCC_PR_LexWhitespace(true);
if (starttok != pr_file_p)
{
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, starttok, pr_file_p - starttok);
}
if(*pr_file_p == '\"')
{
starttok = pr_file_p;
do
{
pr_file_p++;
} while( (pr_file_p[-1] == '\\' || pr_file_p[0] != '\"') && *pr_file_p && *pr_file_p != '\n' );
if(*pr_file_p == '\"')
pr_file_p++;
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, starttok, pr_file_p - starttok);
continue;
}
else if (*pr_file_p == '#') //if you ask for #a##b you will be shot. use #a #b instead, or chain macros.
{
if (pr_file_p[1] == '#')
{ //concatinate (strip out whitespace before the token)
*bufferlen = whitestart;
pr_file_p+=2;
noargexpand = true;
}
else
{ //stringify
pr_file_p++;
pr_file_p = QCC_COM_Parse2(pr_file_p);
if (!pr_file_p)
break;
for (p = 0; p < param; p++)
{
if (!STRCMP(qcc_token, c->params[p]))
{
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, "\"", 1);
QCC_PR_ExpandStrCatMarkup(buffer,bufferlen,buffermax, paramoffset[p], strlen(paramoffset[p]));
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, "\"", 1);
break;
}
}
if (p == param)
{
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, "#", 1);
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, qcc_token, strlen(qcc_token));
if (!c->evil)
QCC_PR_ParseWarning(0, "'#' is not followed by a macro parameter in %s", c->name);
}
continue; //already did this one
}
}
end = qcc_token;
pr_file_p = QCC_COM_Parse2(pr_file_p);
if (!pr_file_p)
break;
for (p = 0; p < c->numparams; p++)
{
if (!STRCMP(qcc_token, c->params[p]))
{
char *argstart, *argend;
for (start = pr_file_p; qcc_iswhite(*start); start++)
;
if (noargexpand || (start[0] == '#' && start[1] == '#'))
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, paramoffset[p], strlen(paramoffset[p]));
else
{
for (argstart = paramoffset[p]; *argstart; argstart = argend)
{
argend = argstart;
while (qcc_iswhite(*argend))
argend++;
if (*argend == '\"')
{
do
{
argend++;
} while( (argend[-1] == '\\' || argend[0] != '\"') && *argend && *argend != '\n' );
if(*argend == '\"')
argend++;
end = NULL;
}
else
{
argend = QCC_COM_Parse2(argend);
if (!argend)
break;
end = QCC_PR_CheckBuiltinCompConst(qcc_token, retbuf, sizeof(retbuf));
}
//FIXME: we should be testing all defines instead of just built-in ones.
if (end)
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, end, strlen(end));
else
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, argstart, argend-argstart);
}
}
break;
}
}
if (c->varg && !STRCMP(qcc_token, "__VA_ARGS__"))
{ //c99
if (param-1 == c->numparams)
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, paramoffset[c->numparams], strlen(paramoffset[c->numparams]));
else if (noargexpand)
{
if(*bufferlen>0 && (*buffer)[*bufferlen-1] == ',')
*bufferlen-=1;
}
}
else if (c->varg && !STRCMP(qcc_token, "__VA_COUNT__"))
{ //not c99
char tmp[64];
if (param < c->numparams)
QCC_PR_ParseError(ERR_TOOFEWPARAMS, "__VA_COUNT__ without any variable args");
QC_snprintfz(tmp, sizeof(tmp), "%i", param-1+extraparam);
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, tmp, strlen(tmp));
}
else if (p == c->numparams)
{
/*CompilerConstant_t *c2 = pHash_Get(&compconstantstable, qcc_token);
if (c2 && c2->numparams >= 0 && *pr_file_p == '(')
{ //oh dear god this is vile bullshit
char *sub = NULL;
size_t sublen;
size_t submax;
pr_file_p++;
if (QCC_PR_ExpandPreProcessorMacro(c, &sub,&sublen,&submax))
{
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, sub, sublen);
}
free(sub);
}
else*/
QCC_PR_ExpandStrCat(buffer,bufferlen,buffermax, qcc_token, strlen(qcc_token));
}
}
for (p = 0; p < param-1; p++)
paramoffset[p][strlen(paramoffset[p])] = ',';
paramoffset[p][strlen(paramoffset[p])] = ')';
if (c->inside>8)
return false;
pr_file_p = argsend;
pr_source_line = argsendline;
if (flag_debugmacros)
{
if (flag_msvcstyle)
externs->Printf ("%s(%i) : macro %s: %s\n", s_filen, pr_source_line, c->name, pr_file_p);
else
externs->Printf ("%s:%i: macro %s: %s\n", s_filen, pr_source_line, c->name, pr_file_p);
}
return true;
}
int QCC_PR_CheckCompConst(void)
{
//FIXME: FOO(SPLAT(FOO(BAR)))
//the above should expand the inner foo before expanding the outer foo
char *initial_file_p = pr_file_p;
int initial_line = pr_source_line;
CompilerConstant_t *c;
char *end, *tok;
char retbuf[256];
for (end = pr_file_p; ; end++)
{
if (!*end || qcc_iswhite(*end))
break;
if (*end == ')'
|| *end == '('
|| *end == '+'
|| *end == '-'
|| *end == '*'
|| *end == '/'
|| *end == '|'
|| *end == '&'
|| *end == '='
|| *end == '^'
|| *end == '~'
|| *end == '['
|| *end == ']'
|| *end == '\"'
|| *end == '{'
|| *end == '}'
|| *end == ';'
|| *end == ':'
|| *end == ','
|| *end == '.'
|| *end == '#')
break;
}
QC_strnlcpy(pr_token, pr_file_p, end-pr_file_p, sizeof(pr_token));
// externs->Printf("%s\n", pr_token);
c = pHash_Get(&compconstantstable, pr_token);
if (c && (!currentchunk || currentchunk->cnst != c)) //macros don't expand themselves
{
pr_file_p = initial_file_p+strlen(c->name);
while(*pr_file_p == ' ' || *pr_file_p == '\t')
pr_file_p++;
if (c->numparams>=0)
{
if (*pr_file_p == '(')
{
char *buffer = NULL;
size_t bufferlen, buffermax;
if (!QCC_PR_ExpandPreProcessorMacro(c, &buffer, &bufferlen, &buffermax))
{
free(buffer);
pr_file_p = initial_file_p;
pr_source_line = initial_line;
return false;
}
if (!bufferlen)
expandedemptymacro = true;
else
{
QCC_PR_ExpandStrCat(&buffer, &bufferlen, &buffermax, "\0", 1);
QCC_PR_IncludeChunkEx(buffer, true, NULL, c);
}
expandedemptymacro = true;
free(buffer);
}
else
{
//QCC_PR_ParseError(ERR_TOOFEWPARAMS, "Macro without argument list");
//such macros don't get expanded.
pr_file_p = initial_file_p;
pr_source_line = initial_line;
return false;
}
}
else
{
if (c->inside >= 8)
{
pr_file_p = initial_file_p;
pr_source_line = initial_line;
return false;
}
if (*c->value)
QCC_PR_IncludeChunkEx(c->value, false, NULL, c);
expandedemptymacro = true;
}
return true;
}
tok = QCC_PR_CheckBuiltinCompConst(pr_token, retbuf, sizeof(retbuf));
if (tok)
{
pr_file_p = end;
QCC_PR_IncludeChunkEx(tok, true, NULL, NULL);
return true;
}
return false;
}
char *QCC_PR_CheckCompConstString(char *def)
{
char *s;
CompilerConstant_t *c;
c = pHash_Get(&compconstantstable, def);
if (c)
{
s = QCC_PR_CheckCompConstString(c->value);
return s;
}
return def;
}
CompilerConstant_t *QCC_PR_CheckCompConstDefined(char *def)
{
CompilerConstant_t *c = pHash_Get(&compconstantstable, def);
return c;
}
char *QCC_PR_CheckCompConstTooltip(char *word, char *outstart, char *outend)
{
int i;
CompilerConstant_t *c = QCC_PR_CheckCompConstDefined(word);
if (c)
{
char *out = outstart;
if (c->numparams >= 0)
{
QC_snprintfz(out, outend-out, "#define %s(", c->name);
out += strlen(out);
for (i = 0; i < c->numparams-1; i++)
{
QC_snprintfz(out, outend-out, "%s,", c->params[i]);
out += strlen(out);
}
if (i < c->numparams)
{
QC_snprintfz(out, outend-out, "%s", c->params[i]);
out += strlen(out);
}
QC_snprintfz(out, outend-out, ")");
}
else
QC_snprintfz(out, outend-out, "#define %s", c->name);
out += strlen(out);
if (c->value && *c->value)
QC_snprintfz(out, outend-out, "\n%s", c->value);
return outstart;
}
return NULL;
}
//============================================================================
/*
==============
PR_Lex
Sets pr_token, pr_token_type, and possibly pr_immediate and pr_immediate_type
==============
*/
void QCC_PR_Lex (void)
{
int c;
pr_token[0] = 0;
if (!pr_file_p)
{
if (QCC_PR_UnInclude())
{
QCC_PR_Lex();
return;
}
pr_token_type = tt_eof;
return;
}
QCC_PR_LexWhitespace (false);
pr_token_line_last = pr_token_line;
pr_token_line = pr_source_line;
if (currentchunk)
pr_token_line += currentchunk->currentlinenumber-1;
if (!pr_file_p)
{
if (QCC_PR_UnInclude())
{
QCC_PR_Lex();
return;
}
pr_token_type = tt_eof;
return;
}
c = *pr_file_p;
if (!c)
{
if (QCC_PR_UnInclude())
{
QCC_PR_Lex();
return;
}
pr_token_type = tt_eof;
return;
}
// handle quoted strings as a unit
if (c == '\"' || ((c == 'R' || c == 'Q' || c == 'u' || c == 'U') && pr_file_p[1] == '\"') || (c == 'u' && pr_file_p[1] == '8' && pr_file_p[2] == '\"'))
{
QCC_PR_LexString ();
return;
}
// handle quoted vectors as a unit
if (c == '\'')
{
QCC_PR_LexVector ();
return;
}
// if the first character is a valid identifier, parse until a non-id
// character is reached
if ((c == '%') && flag_qccx && (pr_file_p[1] == '-' || (pr_file_p[1] >= '0' && pr_file_p[1] <= '9')))
{
//with qccx, %5 is a denormalized float.
pr_file_p++;
pr_token_type = tt_immediate;
pr_immediate_type = type_float;
QCC_PR_ParseWarning(WARN_DENORMAL, "denormalized immediate");
pr_immediate._int = QCC_PR_LexInteger ();
return;
}
if ( c == '0' && pr_file_p[1] == 'x')
{
pr_token_type = tt_immediate;
QCC_PR_LexNumber();
return;
}
if ( (c == '.'&&pr_file_p[1]!='.'&&pr_file_p[1] >='0' && pr_file_p[1] <= '9') || (c >= '0' && c <= '9') || ( c=='-' && pr_file_p[1]>='0' && pr_file_p[1] <='9') )
{
pr_token_type = tt_immediate;
QCC_PR_LexNumber ();
return;
}
if (!flag_qccx && c == '#' && !(pr_file_p[1]==')' || pr_file_p[1]==',' || pr_file_p[1]=='\"' || pr_file_p[1]=='-' || (pr_file_p[1]>='0' && pr_file_p[1] <='9'))) //hash and not number
{
pr_file_p++;
if (!QCC_PR_CheckCompConst())
{
if (!QCC_PR_SimpleGetToken())
strcpy(pr_token, "unknown");
QCC_PR_ParseError(ERR_CONSTANTNOTDEFINED, "Explicit precompiler usage when not defined %s", pr_token);
}
else
{
QCC_PR_Lex();
if (pr_token_type == tt_eof)
QCC_PR_Lex();
}
return;
}
if ( (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c == '_' || (c & 0x80))
{
if (flag_hashonly || !QCC_PR_CheckCompConst()) //look for a macro.
QCC_PR_LexName ();
else
{
//we expanded a macro. we need to read the tokens out of it now though
QCC_PR_Lex();
if (pr_token_type == tt_eof)
{
if (QCC_PR_UnInclude())
{
QCC_PR_Lex();
return;
}
pr_token_type = tt_eof;
}
}
return;
}
if (c == '$')
{
QCC_PR_LexGrab ();
return;
}
// parse symbol strings until a non-symbol is found
QCC_PR_LexPunctuation ();
}
//=============================================================================
pbool QCC_Temp_Describe(QCC_def_t *def, char *buffer, int buffersize);
void QCC_PR_ParsePrintDef (int type, QCC_def_t *def)
{
if (!qccwarningaction[type])
return;
if (def->filen)
{
char tybuffer[512];
char tmbuffer[512];
char *modifiers;
if (QCC_Temp_Describe(def, tmbuffer, sizeof(tmbuffer)))
{
externs->Printf ("%s:%i: (%s)(%s)\n", def->filen, def->s_line, TypeName(def->type, tybuffer, sizeof(tybuffer)), tmbuffer);
}
else
{
modifiers = "";
if (def->constant)
modifiers = "const ";
else if (def->isstatic)
modifiers = "static ";
if (flag_msvcstyle)
externs->Printf ("%s%s(%i) : %s%s%s %s%s%s is defined here\n", col_location, def->filen, def->s_line, col_none, modifiers, TypeName(def->type, tybuffer, sizeof(tybuffer)), col_symbol, def->name, col_none);
else
externs->Printf ("%s%s:%i: %s%s%s %s%s%s is defined here\n", col_location, def->filen, def->s_line, col_none, modifiers, TypeName(def->type, tybuffer, sizeof(tybuffer)), col_symbol, def->name, col_none);
}
}
}
void QCC_PR_ParsePrintSRef (int type, QCC_sref_t def)
{
QCC_PR_ParsePrintDef(type, def.sym);
}
void *errorscope;
static void QCC_PR_PrintMacro (qcc_includechunk_t *chunk)
{
extern pbool verbose;
if (chunk)
{
QCC_PR_PrintMacro(chunk->prev);
if (chunk->cnst)
{
#if 1
externs->Printf ("%s%s:%i: macro %s%s%s is defined here\n", col_location, chunk->cnst->fromfile, chunk->cnst->fromline, col_symbol, chunk->cnst->name, col_none);
#else
externs->Printf ("%s:%i: expanding %s\n", chunk->currentfilename, chunk->currentlinenumber, chunk->cnst->name);
#endif
if (verbose)
externs->Printf ("%s\n", chunk->datastart);
}
else
externs->Printf ("%s:%i:\n", chunk->currentfilename, chunk->currentlinenumber);
}
}
static void QCC_PR_PrintScope (void)
{
QCC_PR_PrintMacro(currentchunk);
if (pr_scope)
{
if (errorscope != pr_scope)
externs->Printf ("in function %s%s%s (line %i),\n", col_symbol, pr_scope->name, col_none, pr_scope->line);
errorscope = pr_scope;
}
else
{
if (errorscope)
externs->Printf ("at global scope,\n");
errorscope = NULL;
}
}
void QCC_PR_ResetErrorScope(void)
{
errorscope = NULL;
}
/*
============
PR_ParseError
Aborts the current file load
============
*/
#ifndef QCC
void editbadfile(const char *file, int line);
#endif
//will abort.
void VARGS QCC_PR_ParseError (int errortype, const char *error, ...)
{
va_list argptr;
char string[1024];
va_start (argptr,error);
QC_vsnprintf (string,sizeof(string)-1, error,argptr);
va_end (argptr);
#ifndef QCC
editbadfile(s_filen, pr_source_line);
#endif
QCC_PR_PrintScope();
if (flag_msvcstyle)
externs->Printf ("%s%s(%i) : %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string);
else
externs->Printf ("%s%s:%i: %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string);
longjmp (pr_parse_abort, 1);
}
//will abort.
void VARGS QCC_PR_ParseErrorPrintDef (int errortype, QCC_def_t *def, const char *error, ...)
{
va_list argptr;
char string[1024];
va_start (argptr,error);
QC_vsnprintf (string,sizeof(string)-1, error,argptr);
va_end (argptr);
#ifndef QCC
editbadfile(s_filen, pr_source_line);
#endif
QCC_PR_PrintScope();
if (flag_msvcstyle)
externs->Printf ("%s%s(%i) : %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string);
else
externs->Printf ("%s%s:%i: %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string);
QCC_PR_ParsePrintDef(WARN_ERROR, def);
longjmp (pr_parse_abort, 1);
}
void VARGS QCC_PR_ParseErrorPrintSRef (int errortype, QCC_sref_t def, const char *error, ...)
{
va_list argptr;
char string[1024];
va_start (argptr,error);
QC_vsnprintf (string,sizeof(string)-1, error,argptr);
va_end (argptr);
#ifndef QCC
editbadfile(s_filen, pr_source_line);
#endif
QCC_PR_PrintScope();
if (flag_msvcstyle)
externs->Printf ("%s%s(%i) : %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string);
else
externs->Printf ("%s%s:%i: %serror%s: %s\n", col_location, s_filen, pr_source_line, col_error, col_none, string);
QCC_PR_ParsePrintSRef(WARN_ERROR, def);
longjmp (pr_parse_abort, 1);
}
static pbool VARGS QCC_PR_PrintWarning (int type, const char *file, int line, const char *string)
{
char *wnam = QCC_NameForWarning(type);
if (!wnam)
wnam = "";
if (string)
QCC_PR_PrintScope();
if (type >= ERR_PARSEERRORS)
{
if (!string)
;
else if (!file || !*file)
externs->Printf (":: %serror%s%s: %s\n", col_error, wnam, col_none, string);
else if (flag_msvcstyle)
externs->Printf ("%s%s(%i) : %serror%s%s: %s\n", col_location, file, line, col_error, wnam, col_none, string);
else
externs->Printf ("%s%s:%i: %serror%s%s: %s\n", col_location, file, line, col_error, wnam, col_none, string);
pr_error_count++;
}
else if (qccwarningaction[type] == 2)
{ //-werror
if (!string)
;
else if (!file || !*file)
externs->Printf (":: %swerror%s%s: %s\n", col_error, wnam, col_none, string);
else if (flag_msvcstyle)
externs->Printf ("%s%s(%i) : %swerror%s%s: %s\n", col_location, file, line, col_error, wnam, col_none, string);
else
externs->Printf ("%s%s:%i: %swerror%s%s: %s\n", col_location, file, line, col_error, wnam, col_none, string);
pr_error_count++;
}
else
{
if (!string)
;
else if (!file || !*file)
externs->Printf (":: %swarning%s%s: %s\n", col_warning, wnam, col_none, string);
else if (flag_msvcstyle)
externs->Printf ("%s%s(%i) : %swarning%s%s: %s\n", col_location, file, line, col_warning, wnam, col_none, string);
else
externs->Printf ("%s%s:%i: %swarning%s%s: %s\n", col_location, file, line, col_warning, wnam, col_none, string);
pr_warning_count++;
}
return true;
}
pbool VARGS QCC_PR_Warning (int type, const char *file, int line, const char *error, ...)
{
va_list argptr;
char string[1024];
if (!qccwarningaction[type])
return false;
if (!error)
return QCC_PR_PrintWarning(type, file, line, NULL);
va_start (argptr,error);
QC_vsnprintf (string,sizeof(string)-1, error,argptr);
va_end (argptr);
return QCC_PR_PrintWarning(type, file, line, string);
}
//can be used for errors, qcc execution will continue.
pbool VARGS QCC_PR_ParseWarning (int type, const char *error, ...)
{
va_list argptr;
char string[1024];
if (!qccwarningaction[type])
return false;
va_start (argptr,error);
QC_vsnprintf (string,sizeof(string)-1, error,argptr);
va_end (argptr);
return QCC_PR_PrintWarning(type, s_filen, pr_source_line, string);
}
void VARGS QCC_PR_Note (int type, const char *file, int line, const char *error, ...)
{
va_list argptr;
char string[1024];
if (!qccwarningaction[type])
return;
va_start (argptr,error);
QC_vsnprintf (string,sizeof(string)-1, error,argptr);
va_end (argptr);
QCC_PR_PrintScope();
if (!file)
externs->Printf ("note: %s\n", string);
else if (flag_msvcstyle)
externs->Printf ("%s(%i) : note: %s\n", file, line, string);
else
externs->Printf ("%s:%i: note: %s\n", file, line, string);
}
/*
=============
PR_Expect
Issues an error if the current token isn't equal to string
Gets the next token
=============
*/
#ifndef COMMONINLINES
void QCC_PR_Expect (const char *string)
{
if (STRCMP (string, pr_token))
QCC_PR_ParseError (ERR_EXPECTED, "expected %s%s%s, found %s%s%s", col_location, string, col_none, col_name, pr_token, col_none);
QCC_PR_Lex ();
}
#endif
pbool QCC_PR_CheckTokenComment(const char *string, char **comment)
{
char c;
char *start;
int nl;
char *old;
int oldlen;
pbool replace = true;
pbool nextcomment = true;
if (pr_token_type != tt_punct)
return false;
if (STRCMP (string, pr_token))
return false;
if (comment)
{
// skip whitespace
nl = false;
while(nextcomment)
{
nextcomment = false;
while ((c = *pr_file_p) && qcc_iswhite(c))
{
if (c=='\n') //allow new lines, but only if there's whitespace before any tokens, and no double newlines.
{
if (nl)
{
pr_file_p++;
QCC_PR_NewLine(false);
break;
}
nl = true;
}
else
{
pr_file_p++;
nl = false;
}
}
if (nl)
break;
// parse // comments
if (c=='/' && pr_file_p[1] == '/')
{
pr_file_p += 2;
while (*pr_file_p == ' ' || *pr_file_p == '\t')
pr_file_p++;
start = pr_file_p;
while (*pr_file_p && *pr_file_p != '\n')
pr_file_p++;
if (*pr_file_p == '\n')
{
pr_file_p++;
QCC_PR_NewLine(false);
}
old = replace?NULL:*comment;
replace = false;
oldlen = old?strlen(old)+1:0;
*comment = qccHunkAlloc(oldlen + (pr_file_p-start)+1);
if (oldlen)
{
memcpy(*comment, old, oldlen-1);
memcpy(*comment+oldlen-1, "\n", 1);
}
memcpy(*comment + oldlen, start, pr_file_p - start);
oldlen = oldlen+pr_file_p - start;
while(oldlen > 0 && ((*comment)[oldlen-1] == '\r' || (*comment)[oldlen-1] == '\n' || (*comment)[oldlen-1] == '\t' || (*comment)[oldlen-1] == ' '))
oldlen--;
(*comment)[oldlen] = 0;
nextcomment = true; //include the next // too
nl = true;
}
// parse /* comments
else if (c=='/' && pr_file_p[1] == '*' && replace)
{
pr_file_p+=1;
start = pr_file_p+1;
do
{
pr_file_p++;
if (pr_file_p[0]=='\n')
{
QCC_PR_NewLine(true);
}
else if (pr_file_p[1] == 0)
{
QCC_PR_ParseError(0, "EOF inside comment\n");
break;
}
if (pr_file_p[0] == '/' && pr_file_p[1] == '*')
QCC_PR_ParseWarning(WARN_NESTEDCOMMENT, "\"/*\" inside comment");
} while (pr_file_p[0] != '*' || pr_file_p[1] != '/');
if (pr_file_p[1] == 0)
break;
old = replace?NULL:*comment;
replace = false;
oldlen = old?strlen(old):0;
*comment = qccHunkAlloc(oldlen + (pr_file_p-start)+1);
memcpy(*comment, old, oldlen);
memcpy(*comment + oldlen, start, pr_file_p - start);
(*comment)[oldlen+pr_file_p - start] = 0;
pr_file_p+=2;
}
}
}
//and then do the rest properly.
QCC_PR_Lex ();
return true;
}
/*
=============
PR_Check
Returns true and gets the next token if the current token equals string
Returns false and does nothing otherwise
=============
*/
#ifndef COMMONINLINES
pbool QCC_PR_CheckToken (const char *string)
{
if (pr_token_type != tt_punct)
return false;
if (STRCMP (string, pr_token))
return false;
QCC_PR_Lex ();
return true;
}
pbool QCC_PR_PeekToken (const char *string)
{
if (pr_token_type != tt_punct)
return false;
if (STRCMP (string, pr_token))
return false;
return true;
}
pbool QCC_PR_CheckImmediate (const char *string)
{
if (pr_token_type != tt_immediate)
return false;
if (STRCMP (string, pr_token))
return false;
QCC_PR_Lex ();
return true;
}
pbool QCC_PR_CheckName(const char *string)
{
if (pr_token_type != tt_name)
return false;
if (flag_caseinsensitive)
{
if (stricmp (string, pr_token))
return false;
}
else
{
if (STRCMP(string, pr_token))
return false;
}
QCC_PR_Lex ();
return true;
}
pbool QCC_PR_CheckKeyword(int keywordenabled, const char *string)
{
if (pr_token[0] == '_' && pr_token[1] == '_')
{
//lets just always go insensitive with a leading underscore pair.
if (stricmp(string, pr_token+2))
return false;
QCC_PR_Lex ();
return true;
}
else
{
if (!keywordenabled)
return false;
if (flag_caseinsensitive)
{
if (stricmp (string, pr_token))
return false;
}
else
{
if (STRCMP(string, pr_token))
return false;
}
}
QCC_PR_Lex ();
return true;
}
#endif
/*
============
PR_ParseName
Checks to see if the current token is a valid name
============
*/
char *QCC_PR_ParseName (void)
{
char ident[MAX_NAME];
char *ret;
if (pr_token_type != tt_name)
{
if (pr_token_type == tt_eof)
QCC_PR_ParseError (ERR_EOF, "unexpected EOF", pr_token);
else if (strcmp(pr_token, "...")) //seriously? someone used '...' as an intrinsic NAME?
QCC_PR_ParseError (ERR_NOTANAME, "\"%s%s%s\" - not a name", col_name, pr_token, col_none);
}
if (strlen(pr_token) >= MAX_NAME-1)
QCC_PR_ParseError (ERR_NAMETOOLONG, "name too long");
strcpy (ident, pr_token);
QCC_PR_Lex ();
ret = qccHunkAlloc(strlen(ident)+1);
strcpy(ret, ident);
return ret;
// return ident;
}
/*
============
PR_FindType
Returns a preexisting complex type that matches the parm, or allocates
a new one and copies it out.
============
*/
//requires EVERYTHING to be the same
static int typecmp_strict(QCC_type_t *a, QCC_type_t *b)
{
int i;
if (a == b)
return 0;
if (!a || !b)
return 1; //different (^ and not both null)
if (a->type != b->type)
return 1;
if (a->num_parms != b->num_parms)
return 1;
if (a->vargs != b->vargs)
return 1;
if (a->vargcount != b->vargcount)
return 1;
if (a->size != b->size)
return 1;
if (a->accessors != b->accessors)
return 1;
if (STRCMP(a->name, b->name))
return 1;
if (typecmp_strict(a->aux_type, b->aux_type))
return 1;
i = a->num_parms;
while(i-- > 0)
{
if (STRCMP(a->params[i].paramname, b->params[i].paramname))
return 1;
if (typecmp_strict(a->params[i].type, b->params[i].type))
return 1;
if (a->params[i].defltvalue.cast || b->params[i].defltvalue.cast)
{
if (typecmp_strict(a->params[i].defltvalue.cast, b->params[i].defltvalue.cast) ||
a->params[i].defltvalue.sym != b->params[i].defltvalue.sym ||
a->params[i].defltvalue.ofs != b->params[i].defltvalue.ofs)
return 1;
}
}
return 0;
}
//reports if they're functionally equivelent (allows assignments)
int typecmp(QCC_type_t *a, QCC_type_t *b)
{
int i;
if (a == b)
return 0;
if (!a || !b)
return 1; //different (^ and not both null)
if (a->type != b->type)
return 1;
if (a->num_parms != b->num_parms)
return 1;
if (a->vargs != b->vargs)
return 1;
if (a->vargcount != b->vargcount)
return 1;
if (a->size != b->size)
return 1;
if ((a->type == ev_entity && a->parentclass) || a->type == ev_struct || a->type == ev_union)
{
if (STRCMP(a->name, b->name))
return 1;
}
if (typecmp(a->aux_type, b->aux_type))
return 1;
i = a->num_parms;
while(i-- > 0)
{
if (a->type != ev_function && STRCMP(a->params[i].paramname, b->params[i].paramname))
return 1;
if (typecmp(a->params[i].type, b->params[i].type))
return 1;
if (a->params[i].defltvalue.cast || b->params[i].defltvalue.cast)
{
if (typecmp(a->params[i].defltvalue.cast, b->params[i].defltvalue.cast) ||
a->params[i].defltvalue.sym != b->params[i].defltvalue.sym ||
a->params[i].defltvalue.ofs != b->params[i].defltvalue.ofs)
return 1;
}
}
return 0;
}
//compares the types, but doesn't complain if there are optional arguments which differ
int typecmp_lax(QCC_type_t *a, QCC_type_t *b)
{
unsigned int minargs = 0;
unsigned int t;
if (a == b)
return 0;
if (!a || !b)
return 1; //different (^ and not both null)
if (a->type != b->type)
{
if (a->type == ev_accessor && a->parentclass)
if (!typecmp_lax(a->parentclass, b))
return 0;
if (b->type == ev_accessor && b->parentclass)
if (!typecmp_lax(a, b->parentclass))
return 0;
if (a->type != ev_variant && b->type != ev_variant)
return 1;
}
else if (a->size != b->size)
return 1;
if (a->vargcount != b->vargcount)
return 1;
t = a->num_parms;
minargs = t;
t = b->num_parms;
if (minargs > t)
minargs = t;
// if (STRCMP(a->name, b->name)) //This isn't 100% clean.
// return 1;
if (typecmp_lax(a->aux_type, b->aux_type))
return 1;
//variants and args don't make sense, and are considered equivelent(ish).
if (a->type == ev_variant || b->type == ev_variant)
return 0;
//optional arg types must match, even if they're not specified in one.
for (t = 0; t < minargs; t++)
{
if (a->params[t].type->type != b->params[t].type->type)
return 1;
if (a->params[t].out != b->params[t].out)
return 1;
//classes/structs/unions are matched on class names rather than the contents of the class
//it gets too painful otherwise, with recursive definitions.
if (a->params[t].type->type == ev_entity || a->params[t].type->type == ev_struct || a->params[t].type->type == ev_union)
{
if (STRCMP(a->params[t].type->name, b->params[t].type->name))
return 1;
}
else
{
if (typecmp_lax(a->params[t].type, b->params[t].type))
return 1;
}
if (a->params[t].defltvalue.cast || b->params[t].defltvalue.cast)
{
if (typecmp(a->params[t].defltvalue.cast, b->params[t].defltvalue.cast) ||
a->params[t].defltvalue.sym != b->params[t].defltvalue.sym ||
a->params[t].defltvalue.ofs != b->params[t].defltvalue.ofs)
return 1;
}
}
if (a->num_parms > minargs)
{
for (t = minargs; t < a->num_parms; t++)
{
if (!a->params[t].optional)
return 1;
}
}
if (b->num_parms > minargs)
{
for (t = minargs; t < b->num_parms; t++)
{
if (!b->params[t].optional)
return 1;
}
}
return 0;
}
QCC_type_t *QCC_PR_DuplicateType(QCC_type_t *in, pbool recurse)
{
QCC_type_t *out;
if (!in)
return NULL;
out = QCC_PR_NewType(in->name, in->type, false);
out->aux_type = recurse?QCC_PR_DuplicateType(in->aux_type, recurse):in->aux_type;
out->num_parms = in->num_parms;
out->params = qccHunkAlloc(sizeof(*out->params) * out->num_parms);
memcpy(out->params, in->params, sizeof(*out->params) * out->num_parms);
out->accessors = in->accessors;
out->size = in->size;
out->num_parms = in->num_parms;
out->name = in->name;
out->parentclass = in->parentclass;
return out;
}
static void Q_strlcat(char *dest, const char *src, int sizeofdest)
{
if (sizeofdest)
{
int dlen = strlen(dest);
int slen = strlen(src)+1;
memcpy(dest+dlen, src, min((sizeofdest-1)-dlen, slen));
dest[sizeofdest - 1] = 0;
}
}
char *TypeName(QCC_type_t *type, char *buffer, int buffersize)
{
char *ret;
if (type->type == ev_void)
{
if (buffersize < 0)
return buffer;
*buffer = 0;
Q_strlcat(buffer, "void", buffersize);
return buffer;
}
if (type->type == ev_pointer)
{
if (buffersize < 0)
return buffer;
TypeName(type->aux_type, buffer, buffersize-2);
Q_strlcat(buffer, " *", buffersize);
return buffer;
}
ret = buffer;
if (type->type == ev_field)
{
type = type->aux_type;
*ret++ = '.';
}
*ret = 0;
if (type->type == ev_function)
{
int args = type->num_parms;
pbool vargs = type->vargs;
unsigned int i;
Q_strlcat(buffer, type->aux_type->name, buffersize);
Q_strlcat(buffer, "(", buffersize);
for (i = 0; i < type->num_parms; )
{
if (type->params[i].out)
Q_strlcat(buffer, "inout ", buffersize);
if (type->params[i].optional)
Q_strlcat(buffer, "optional ", buffersize);
args--;
Q_strlcat(buffer, type->params[i].type->name, buffersize);
if (type->params[i].paramname && *type->params[i].paramname)
{
Q_strlcat(buffer, " ", buffersize);
Q_strlcat(buffer, type->params[i].paramname, buffersize);
}
if (type->params[i].defltvalue.cast)
{
Q_strlcat(buffer, " = ", buffersize);
Q_strlcat(buffer, QCC_VarAtOffset(type->params[i].defltvalue), buffersize);
}
if (++i < type->num_parms || vargs)
Q_strlcat(buffer, ", ", buffersize);
}
if (vargs)
Q_strlcat(buffer, "...", buffersize);
Q_strlcat(buffer, ")", buffersize);
}
else if (type->type == ev_entity && type->parentclass)
{
ret = buffer;
*ret = 0;
Q_strlcat(buffer, "class ", buffersize);
Q_strlcat(buffer, type->name, buffersize);
/* strcat(ret, " {");
type = type->param;
while(type)
{
strcat(ret, type->name);
type = type->next;
if (type)
strcat(ret, ", ");
}
strcat(ret, "}");
*/
}
else
Q_strlcat(buffer, type->name, buffersize);
return buffer;
}
//#define typecmp(a, b) (a && ((a)->type==(b)->type) && !STRCMP((a)->name, (b)->name))
static QCC_type_t *QCC_PR_FindType (QCC_type_t *type)
{
int t;
for (t = 0; t < numtypeinfos; t++)
{
// check = &qcc_typeinfo[t];
if (typecmp_strict(&qcc_typeinfo[t], type))
continue;
// c2 = check->next;
// n2 = type->next;
// for (i=0 ; n2&&c2 ; i++)
// {
// if (!typecmp((c2), (n2)))
// break;
// c2=c2->next;
// n2=n2->next;
// }
// if (n2==NULL&&c2==NULL)
{
return &qcc_typeinfo[t];
}
}
type = QCC_PR_DuplicateType(type, false);
return type;
}
/*
QCC_type_t *QCC_PR_NextSubType(QCC_type_t *type, QCC_type_t *prev)
{
int p;
if (!prev)
return type->next;
for (p = prev->num_parms; p; p--)
prev = QCC_PR_NextSubType(prev, NULL);
if (prev->num_parms)
switch(prev->type)
{
case ev_function:
}
return prev->next;
}
*/
QCC_type_t *QCC_TypeForName(const char *name)
{
return pHash_Get(&typedeftable, name);
/*
int i;
for (i = 0; i < numtypeinfos; i++)
{
if (qcc_typeinfo[i].typedefed && !STRCMP(qcc_typeinfo[i].name, name))
{
return &qcc_typeinfo[i];
}
}
return NULL;*/
}
/*
============
PR_SkipToSemicolon
For error recovery, also pops out of nested braces
============
*/
void QCC_PR_SkipToSemicolon (void)
{
//escape out of any #define
while (currentchunk && currentchunk->cnst)
QCC_PR_UnInclude();
do
{
if (!pr_bracelevel && QCC_PR_CheckToken (";"))
return;
QCC_PR_Lex ();
} while (pr_token_type != tt_eof);
}
/*
============
PR_ParseType
Parses a variable type, including field and functions types
============
*/
#ifdef MAX_EXTRA_PARMS
char pr_parm_names[MAX_PARMS+MAX_EXTRA_PARMS][MAX_NAME];
#else
char pr_parm_names[MAX_PARMS][MAX_NAME];
#endif
char *pr_parm_argcount_name;
int recursivefunctiontype;
static QCC_type_t *QCC_PR_MakeThiscall(QCC_type_t *orig, QCC_type_t *thistype)
{
QCC_type_t ftype = *orig;
ftype.ptrto = NULL;
ftype.typedefed = false;
ftype.num_parms++;
ftype.params = qccHunkAlloc(sizeof(*ftype.params) * ftype.num_parms);
memcpy(ftype.params+1, orig->params, sizeof(*ftype.params) * orig->num_parms);
ftype.params[0].paramname = "this";
ftype.params[0].type = QCC_PointerTypeTo(thistype);
ftype.params[0].isvirtual = true;
orig = QCC_PR_FindType (&ftype);
if (!orig)
{
orig = QCC_PR_NewType(ftype.name, ftype.type, false);
*orig = ftype;
}
return orig;
}
//expects a ( to have already been parsed.
QCC_type_t *QCC_PR_ParseFunctionType (int newtype, QCC_type_t *returntype)
{
QCC_type_t *ftype;
char *name;
int definenames = !recursivefunctiontype;
int numparms = 0;
struct QCC_typeparam_s paramlist[MAX_PARMS+MAX_EXTRA_PARMS];
recursivefunctiontype++;
ftype = QCC_PR_NewType(type_function->name, ev_function, false);
ftype->aux_type = returntype; // return type
ftype->num_parms = 0;
if (definenames)
pr_parm_argcount_name = NULL;
if (!QCC_PR_CheckToken (")"))
{
do
{
pbool foundinout;
if (ftype->num_parms>=MAX_PARMS+MAX_EXTRA_PARMS)
QCC_PR_ParseError(ERR_TOOMANYTOTALPARAMETERS, "Too many parameters. Sorry. (limit is %i)\n", MAX_PARMS+MAX_EXTRA_PARMS);
if (QCC_PR_CheckToken ("..."))
{
ftype->vargs = true;
break;
}
foundinout = false;
paramlist[numparms].optional = false;
paramlist[numparms].isvirtual = false;
paramlist[numparms].out = false;
while(1)
{
if (!paramlist[numparms].optional && QCC_PR_CheckKeyword(keyword_optional, "optional"))
paramlist[numparms].optional = true;
else if (!foundinout && QCC_PR_CheckKeyword(keyword_inout, "inout"))
{
paramlist[numparms].out = true;
foundinout = true;
}
else if (!foundinout && QCC_PR_CheckKeyword(keyword_inout, "out"))
{
paramlist[numparms].out = 2; //not really supported, but parsed for readability.
foundinout = true;
}
else if (!foundinout && QCC_PR_CheckKeyword(keyword_inout, "in"))
{
paramlist[numparms].out = false;
foundinout = true;
}
else
break;
}
paramlist[numparms].defltvalue.cast = NULL;
paramlist[numparms].ofs = 0;
paramlist[numparms].arraysize = 0;
paramlist[numparms].type = QCC_PR_ParseType(false, false);
if (!paramlist[numparms].type)
QCC_PR_ParseError(0, "Expected type\n");
while (QCC_PR_CheckToken("*"))
paramlist[numparms].type = QCC_PointerTypeTo(paramlist[numparms].type);
if (paramlist[numparms].type->type == ev_void)
break; //float(void) has no actual args
if (!foundinout && QCC_PR_CheckToken("&"))
{ //accept c++ syntax, at least on arguments. its not quite the same, but it'll do.
paramlist[numparms].out = true;
foundinout = true;
}
// type->name = "FUNC PARAMETER";
paramlist[numparms].paramname = "";
if (STRCMP(pr_token, ",") && STRCMP(pr_token, ")"))
{
if (QCC_PR_CheckToken ("..."))
{
ftype->vargs = true;
break;
}
newtype = true;
name = QCC_PR_ParseName ();
paramlist[numparms].paramname = qccHunkAlloc(strlen(name)+1);
strcpy(paramlist[numparms].paramname, name);
if (definenames)
strcpy (pr_parm_names[numparms], name);
if (QCC_PR_CheckToken("["))
{
QCC_PR_ParseError(0, "Array arguments are not supported\n");
QCC_PR_Expect("]");
}
}
else if (definenames)
strcpy (pr_parm_names[numparms], "");
if (QCC_PR_CheckToken("="))
{
paramlist[numparms].defltvalue = QCC_PR_ParseDefaultInitialiser(paramlist[numparms].type);
if (!paramlist[numparms].defltvalue.sym->constant)
QCC_PR_ParseError(0, "Default initialiser is not constant\n");
QCC_FreeTemp(paramlist[numparms].defltvalue);
}
numparms++;
} while (QCC_PR_CheckToken (","));
if (ftype->vargs)
{
if (!QCC_PR_CheckToken (")"))
{
name = QCC_PR_ParseName();
if (definenames)
{
pr_parm_argcount_name = qccHunkAlloc(strlen(name)+1);
strcpy(pr_parm_argcount_name, name);
}
ftype->vargcount = true;
QCC_PR_Expect (")");
}
}
else
QCC_PR_Expect (")");
}
ftype->num_parms = numparms;
ftype->params = qccHunkAlloc(sizeof(*ftype->params) * numparms);
memcpy(ftype->params, paramlist, sizeof(*ftype->params) * numparms);
recursivefunctiontype--;
if (returntype->size > 3 && !autoprototype) //fixme: handle properly, without breaking __out
QCC_PR_ParseWarning(WARN_UNDESIRABLECONVENTION, "Unable to handle functions returning structures larger than a vector. Will truncate.");
if (newtype)
return ftype;
return QCC_PR_FindType (ftype);
}
QCC_type_t *QCC_PR_ParseFunctionTypeReacc (int newtype, QCC_type_t *returntype)
{
QCC_type_t *ftype, *nptype;
char *name;
int definenames = !recursivefunctiontype;
int numparms = 0;
struct QCC_typeparam_s paramlist[MAX_PARMS+MAX_EXTRA_PARMS];
recursivefunctiontype++;
ftype = QCC_PR_NewType(type_function->name, ev_function, false);
ftype->aux_type = returntype; // return type
ftype->num_parms = 0;
pr_parm_argcount_name = NULL;
if (!QCC_PR_CheckToken (")"))
{
do
{
if (numparms>=MAX_PARMS+MAX_EXTRA_PARMS)
QCC_PR_ParseError(ERR_TOOMANYTOTALPARAMETERS, "Too many parameters. Sorry. (limit is %i)\n", MAX_PARMS+MAX_EXTRA_PARMS);
if (QCC_PR_CheckToken ("..."))
{
ftype->vargs = true;
break;
}
if (QCC_PR_CheckName("arg"))
{
name = "";
nptype = QCC_PR_NewType("Variant", ev_variant, false);
}
else if (QCC_PR_CheckName("vect")) //this can only be of vector sizes, so...
{
name = "";
nptype = QCC_PR_NewType("Vector", ev_vector, false);
}
else
{
name = QCC_PR_ParseName();
QCC_PR_Expect(":");
nptype = QCC_PR_ParseType(true, false);
}
if (!nptype)
QCC_PR_ParseError(0, "Expected type\n");
if (nptype->type == ev_void)
break;
// type->name = "FUNC PARAMETER";
paramlist[numparms].out = false;
paramlist[numparms].optional = false;
paramlist[numparms].isvirtual = false;
paramlist[numparms].ofs = 0;
paramlist[numparms].arraysize = 0;
paramlist[numparms].type = nptype;
if (!*name)
paramlist[numparms].paramname = "";
else
{
paramlist[numparms].paramname = qccHunkAlloc(strlen(name)+1);
strcpy(paramlist[numparms].paramname, name);
}
if (definenames)
QC_snprintfz(pr_parm_names[numparms], MAX_NAME, "%s", name);
numparms++;
} while (QCC_PR_CheckToken (";"));
QCC_PR_Expect (")");
}
ftype->num_parms = numparms;
ftype->params = qccHunkAlloc(sizeof(*ftype->params) * numparms);
memcpy(ftype->params, paramlist, sizeof(*ftype->params) * numparms);
recursivefunctiontype--;
if (newtype)
return ftype;
return QCC_PR_FindType (ftype);
}
QCC_type_t *QCC_PR_PointerType (QCC_type_t *pointsto)
{
QCC_type_t *ptype, *e;
char name[128];
if (pointsto->ptrto)
return pointsto->ptrto;
QC_snprintfz(name, sizeof(name), "%s*", pointsto->name);
ptype = QCC_PR_NewType(name, ev_pointer, false);
ptype->aux_type = pointsto;
e = QCC_PR_FindType (ptype);
if (e == ptype)
{
char name[128];
QC_snprintfz(name, sizeof(name), "ptr to %s", pointsto->name);
e->name = strcpy(qccHunkAlloc(strlen(name)+1), name);
}
pointsto->ptrto = e;
return e;
}
QCC_type_t *QCC_PR_FieldType (QCC_type_t *pointsto)
{
QCC_type_t *ptype;
char name[128];
QC_snprintfz(name, sizeof(name), "FIELD_TYPE(%s)", pointsto->name);
ptype = QCC_PR_NewType(name, ev_field, false);
ptype->aux_type = pointsto;
ptype->size = ptype->aux_type->size;
return QCC_PR_FindType (ptype);
}
QCC_type_t *QCC_PR_GenFunctionType (QCC_type_t *rettype, struct QCC_typeparam_s *args, int numargs)
{
int i;
struct QCC_typeparam_s *p;
QCC_type_t *ftype;
ftype = QCC_PR_NewType("$func", ev_function, false);
ftype->aux_type = rettype;
ftype->num_parms = numargs;
ftype->params = p = qccHunkAlloc(sizeof(*ftype->params)*numargs);
ftype->vargs = false;
ftype->vargcount = false;
for (i = 0; i < numargs; i++, p++)
{
if (args[i].paramname)
{
p->paramname = qccHunkAlloc(strlen(args[i].paramname)+1);
strcpy(p->paramname, args[i].paramname);
}
else
p->paramname = "";
p->type = args[i].type;
p->out = args[i].out;
p->optional = args[i].optional;
p->isvirtual = args[i].isvirtual;
p->ofs = args[i].ofs;
p->arraysize = args[i].arraysize;
p->defltvalue.cast = NULL;
}
return QCC_PR_FindType (ftype);
}
extern char *basictypenames[];
extern QCC_type_t **basictypes[];
pbool type_inlinefunction;
/*newtype=true: creates a new type always
silentfail=true: function is permitted to return NULL if it was not given a type, otherwise never returns NULL
*/
QCC_type_t *QCC_PR_ParseType (int newtype, pbool silentfail)
{
QCC_type_t *newparm;
QCC_type_t *newt;
QCC_type_t *type;
char *name;
etype_t structtype;
type_inlinefunction = false; //doesn't really matter so long as its not from an inline function type
// int ofs;
if (QCC_PR_CheckToken ("..")) //so we don't end up with the user specifying '. .vector blah' (hexen2 added the .. token for array ranges)
{
newt = QCC_PR_NewType("FIELD_TYPE", ev_field, false);
newt->aux_type = QCC_PR_ParseType (false, false);
newt->size = newt->aux_type->size;
newt = QCC_PR_FindType (newt);
type = QCC_PR_NewType("FIELD_TYPE", ev_field, false);
type->aux_type = newt;
type->size = type->aux_type->size;
if (newtype)
return type;
return QCC_PR_FindType (type);
}
if (QCC_PR_CheckToken ("."))
{
//.float *foo; is annoying.
//technically it is a pointer to a .float
//most people will want a .(float*) foo;
//so .*float will give you that.
//however, we can't cope parsing that with regular types, so we support that ONLY when . was already specified.
//this is pretty much an evil syntax hack.
pbool ptr = QCC_PR_CheckToken ("*");
type = QCC_PR_ParseType(false, false);
if (!type)
QCC_PR_ParseError(0, "Expected type\n");
if (ptr)
type = QCC_PointerTypeTo(type);
name = qccHunkAlloc(strlen(type->name)+2);
*name = '.';
strcpy(name+1, type->name);
newt = QCC_PR_NewType(name, ev_field, false);
newt->aux_type = type;
newt->size = newt->aux_type->size;
if (newtype)
return newt;
return QCC_PR_FindType (newt);
}
name = pr_token;
if (pr_token_type != tt_name)
{
if (silentfail)
return NULL;
QCC_PR_ParseError (ERR_NOTATYPE, "\"%s\" is not a type", name);
}
// name = QCC_PR_CheckCompConstString(name);
//accessors
if (QCC_PR_CheckKeyword (keyword_class, "accessor"))
{
char parentname[256];
char *accessorname;
char *funcname;
newt = NULL;
funcname = QCC_PR_ParseName();
accessorname = qccHunkAlloc(strlen(funcname)+1);
strcpy(accessorname, funcname);
/* Look to see if this type is already defined */
newt = QCC_TypeForName(accessorname);
if (newt && newt->type != ev_accessor)
QCC_PR_ParseError(ERR_NOTANAME, "Type %s cannot be redefined as an accessor", accessorname);
if (QCC_PR_CheckToken(":"))
{
type = QCC_PR_ParseType(false, false);
if (type)
TypeName(type, parentname, sizeof(parentname));
else
strcpy(parentname, "??");
if (!type || type->type == ev_struct || type->type == ev_union)
QCC_PR_ParseError(ERR_NOTANAME, "Accessor %s cannot be based upon %s", accessorname, parentname);
}
else
type = NULL;
if (!newt)
{
newt = QCC_PR_NewType(accessorname, ev_accessor, true);
newt->size=type->size;
}
if (!newt->parentclass)
{
newt->parentclass = type;
if (!newt->parentclass || newt->parentclass->type == ev_struct || newt->parentclass->type == ev_union || newt->size != newt->parentclass->size)
QCC_PR_ParseError(ERR_NOTANAME, "Accessor %s cannot be based upon %s", accessorname, parentname);
}
else if (type != newt->parentclass)
QCC_PR_ParseError(ERR_NOTANAME, "Accessor %s basic type mismatch", accessorname);
if (QCC_PR_CheckToken("{"))
{
struct accessor_s *acc;
pbool setnotget;
char *fieldtypename;
QCC_type_t *fieldtype;
QCC_type_t *indextype;
QCC_sref_t def;
QCC_type_t *functype;
struct QCC_typeparam_s arg[3];
int args;
char *indexname;
pbool isref;
pbool isinline;
do
{
isinline = QCC_PR_CheckName("inline");
if (QCC_PR_CheckName("set"))
setnotget = true;
else if (QCC_PR_CheckName("get"))
setnotget = false;
else
break;
if (QCC_PR_CheckToken("&"))
isref = 2;
else
isref = QCC_PR_CheckToken("*");
fieldtypename = QCC_PR_ParseName();
fieldtype = QCC_TypeForName(fieldtypename);
if (!fieldtype)
QCC_PR_ParseError(ERR_NOTATYPE, "Invalid type: %s", fieldtypename);
while(QCC_PR_CheckToken("*"))
fieldtype = QCC_PR_PointerType(fieldtype);
if (pr_token_type != tt_punct)
{
funcname = QCC_PR_ParseName();
accessorname = qccHunkAlloc(strlen(funcname)+1);
strcpy(accessorname, funcname);
}
else
accessorname = "";
indextype = NULL;
indexname = "index";
if (QCC_PR_CheckToken("["))
{
fieldtypename = QCC_PR_ParseName();
indextype = QCC_TypeForName(fieldtypename);
if (!QCC_PR_CheckToken("]"))
{
indexname = QCC_PR_ParseName();
QCC_PR_Expect("]");
}
}
QCC_PR_Expect("=");
args = 0;
memset(arg, 0, sizeof(arg));
strcpy (pr_parm_names[args], "this");
arg[args].paramname = "this";
if (isref == 2)
{
arg[args].type = newt;
arg[args].out = 1; //inout
}
else if (isref)
arg[args].type = QCC_PointerTypeTo(newt);
else
arg[args].type = newt;
args++;
if (indextype)
{
strcpy (pr_parm_names[args], indexname);
arg[args].paramname = indexname;
arg[args++].type = indextype;
}
if (setnotget)
{
strcpy (pr_parm_names[args], "value");
arg[args].paramname = "value";
arg[args++].type = fieldtype;
}
functype = QCC_PR_GenFunctionType(setnotget?type_void:fieldtype, arg, args);
if (pr_token_type != tt_name)
{
QCC_function_t *f;
char funcname[256];
QC_snprintfz(funcname, sizeof(funcname), "%s::%s_%s", newt->name, setnotget?"set":"get", accessorname);
def = QCC_PR_GetSRef(functype, funcname, NULL, true, 0, GDF_CONST | (isinline?GDF_INLINE:0));
//pr_classtype = newt;
f = QCC_PR_ParseImmediateStatements (def.sym, functype, false);
pr_classtype = NULL;
pr_scope = NULL;
def.sym->symboldata[def.ofs].function = f - functions;
f->def = def.sym;
def.sym->initialized = 1;
}
else
{
funcname = QCC_PR_ParseName();
def = QCC_PR_GetSRef(functype, funcname, NULL, true, 0, GDF_CONST|(isinline?GDF_INLINE:0));
if (!def.cast)
QCC_Error(ERR_NOFUNC, "%s::set_%s: %s was not defined", newt->name, accessorname, funcname);
}
if (!def.cast || !def.sym || def.sym->temp)
QCC_Error(ERR_NOFUNC, "%s::%s_%s function invalid", newt->name, setnotget?"set":"get", accessorname);
for (acc = newt->accessors; acc; acc = acc->next)
if (!strcmp(acc->fieldname, accessorname))
break;
if (!acc)
{
acc = qccHunkAlloc(sizeof(*acc));
acc->fieldname = accessorname;
acc->next = newt->accessors;
acc->type = fieldtype;
acc->indexertype = indextype;
newt->accessors = acc;
}
if (acc->getset_func[setnotget].cast)
QCC_Error(ERR_TOOMANYINITIALISERS, "%s::%s_%s already declared", newt->name, setnotget?"set":"get", accessorname);
acc->getset_func[setnotget] = def;
acc->getset_isref[setnotget] = isref;
QCC_FreeTemp(def);
} while (QCC_PR_CheckToken(",") || QCC_PR_CheckToken(";"));
QCC_PR_Expect("}");
}
if (newtype)
newt = QCC_PR_DuplicateType(newt, false);
return newt;
}
if (QCC_PR_CheckKeyword (keyword_class, "class"))
{
// int parms;
QCC_type_t *fieldtype;
char membername[2048];
char *classname;
int forwarddeclaration;
int numparms = 0;
struct QCC_typeparam_s *parms = NULL;
char *parmname;
int arraysize;
pbool redeclaration;
int basicindex;
QCC_def_t *d;
QCC_type_t *pc;
pbool found = false;
int assumevirtual = 0; //0=erk, 1=yes, -1=no
parmname = QCC_PR_ParseName();
classname = qccHunkAlloc(strlen(parmname)+1);
strcpy(classname, parmname);
newt = 0;
if (QCC_PR_CheckToken(":"))
{
char *parentname = QCC_PR_ParseName();
fieldtype = QCC_TypeForName(parentname);
if (!fieldtype)
QCC_PR_ParseError(ERR_NOTANAME, "Parent class %s was not yet defined", parentname);
forwarddeclaration = false;
QCC_PR_Expect("{");
}
else
{
fieldtype = type_entity;
forwarddeclaration = !QCC_PR_CheckToken("{");
}
newt = QCC_TypeForName(classname);
if (newt && newt->num_parms != 0)
redeclaration = true;
else
redeclaration = false;
if (!newt)
{
newt = QCC_PR_NewType(classname, ev_entity, true);
newt->size=type_entity->size;
}
type = NULL;
if (forwarddeclaration)
return newt;
if (pr_scope)
QCC_PR_ParseError(ERR_REDECLARATION, "Declaration of class %s within function", classname);
if (redeclaration && fieldtype != newt->parentclass)
QCC_PR_ParseError(ERR_REDECLARATION, "Parent class changed on redeclaration of %s", classname);
newt->parentclass = fieldtype;
if (QCC_PR_CheckToken(","))
QCC_PR_ParseError(ERR_NOTANAME, "member missing name");
while (!QCC_PR_CheckToken("}"))
{
pbool havebody = false;
pbool isnull = false;
pbool isvirt = false;
pbool isnonvirt = false;
pbool isstatic = false;
pbool isignored = false;
// pbool ispublic = false;
// pbool isprivate = false;
// pbool isprotected = false;
while(1)
{
if (QCC_PR_CheckKeyword(1, "nonvirtual"))
isnonvirt = true;
else if (QCC_PR_CheckKeyword(1, "static"))
isstatic = true;
else if (QCC_PR_CheckKeyword(1, "virtual"))
isvirt = true;
else if (QCC_PR_CheckKeyword(1, "ignore"))
isignored = true;
else if (QCC_PR_CheckKeyword(1, "strip"))
isignored = true;
else if (QCC_PR_CheckKeyword(1, "public"))
/*ispublic = true*/;
else if (QCC_PR_CheckKeyword(1, "private"))
/*isprivate = true*/;
else if (QCC_PR_CheckKeyword(1, "protected"))
/*isprotected = true*/;
else
break;
}
if (QCC_PR_CheckToken(":"))
{
if (isvirt && !isnonvirt)
assumevirtual = 1;
else if (isnonvirt && !isvirt)
assumevirtual = -1;
continue;
}
newparm = QCC_PR_ParseType(false, false);
if (!newparm)
QCC_PR_ParseError(ERR_INTERNAL, "In class %s, expected type, found %s", classname, pr_token);
if (newparm->type == ev_struct || newparm->type == ev_union) //we wouldn't be able to handle it.
QCC_PR_ParseError(ERR_INTERNAL, "Struct or union in class %s", classname);
parmname = QCC_PR_ParseName();
if (QCC_PR_CheckToken("["))
{
arraysize = QCC_PR_IntConstExpr();
QCC_PR_Expect("]");
}
else
arraysize = 0;
if (newparm->type == ev_function)
{
if (isstatic)
{
isstatic = false;
isnonvirt = true;
// QCC_PR_ParseError(ERR_INTERNAL, "%s::%s static member functions are not supported at this time.", classname, parmname);
}
if (!strcmp(classname, parmname))
{
if (isstatic)
QCC_PR_ParseError(ERR_INTERNAL, "Constructor %s::%s may not be static.", classname, pr_token);
if (!isvirt)
isnonvirt = true;//silently promote constructors to static
}
else if (!isvirt && !isnonvirt && !isstatic)
{
if (assumevirtual == 1)
isvirt = true;
else if (assumevirtual == -1)
isnonvirt = true;
else
QCC_PR_ParseWarning(WARN_MISSINGMEMBERQUALIFIER, "%s::%s was not qualified. Assuming non-virtual.", classname, parmname);
}
if (isvirt+isnonvirt+isstatic != 1)
QCC_PR_ParseError(ERR_INTERNAL, "Multiple conflicting qualifiers on %s::%s.", classname, pr_token);
}
else
{
if (isvirt|isnonvirt)
QCC_Error(ERR_INTERNAL, "virtual keyword on member that is not a function");
}
if (newparm->type == ev_function)
{
if (QCC_PR_CheckToken("="))
{
havebody = true;
}
else if (pr_token[0] == '{')
havebody = true;
}
if (havebody)
{
QCC_def_t *def;
if (pr_scope)
QCC_Error(ERR_INTERNAL, "Nested function declaration");
isnull = (QCC_PR_CheckImmediate("0") || QCC_PR_CheckImmediate("0i"));
QC_snprintfz(membername, sizeof(membername), "%s::%s", classname, parmname);
if (isnull)
{
if (isignored)
def = NULL;
else
{
def = QCC_PR_GetDef(newparm, membername, NULL, true, 0, 0);
def->symboldata[def->ofs].function = 0;
def->initialized = 1;
}
}
else
{
if (isignored)
def = NULL;
else
def = QCC_PR_GetDef(newparm, membername, NULL, true, 0, GDF_CONST);
if (newparm->type != ev_function)
QCC_Error(ERR_INTERNAL, "Can only initialise member functions");
else
{
if (autoprototype || isignored)
{
if (QCC_PR_CheckToken("["))
{
while (!QCC_PR_CheckToken("]"))
{
if (pr_token_type == tt_eof)
break;
QCC_PR_Lex();
}
}
QCC_PR_Expect("{");
{
int blev = 1;
//balance out the { and }
while(blev)
{
if (pr_token_type == tt_eof)
break;
if (QCC_PR_CheckToken("{"))
blev++;
else if (QCC_PR_CheckToken("}"))
blev--;
else
QCC_PR_Lex(); //ignore it.
}
}
}
else
{
pr_classtype = newt;
QCC_PR_ParseInitializerDef(def, 0);
pr_classtype = NULL;
/*
f = QCC_PR_ParseImmediateStatements (def, newparm);
pr_classtype = NULL;
pr_scope = NULL;
def->symboldata[def->ofs].function = f - functions;
f->def = def;
def->initialized = 1;*/
}
}
}
if (def)
QCC_FreeDef(def);
if (!isvirt && !isignored)
{
QCC_def_t *fdef;
QCC_type_t *pc;
unsigned int i;
for (pc = newt->parentclass; pc; pc = pc->parentclass)
{
for (i = 0; i < pc->num_parms; i++)
{
if (!strcmp(pc->params[i].paramname, parmname))
{
QCC_PR_ParseWarning(WARN_DUPLICATEDEFINITION, "%s::%s is virtual inside parent class '%s'. Did you forget the 'virtual' keyword?", newt->name, parmname, pc->name);
break;
}
}
if (i < pc->num_parms)
break;
}
if (!pc)
{
fdef = QCC_PR_GetDef(NULL, parmname, NULL, false, 0, GDF_CONST);
if (fdef && fdef->type->type == ev_field)
{
QCC_PR_ParseWarning(WARN_DUPLICATEDEFINITION, "%s::%s is virtual inside parent class 'entity'. Did you forget the 'virtual' keyword?", newt->name, parmname);
QCC_PR_ParsePrintDef(0, fdef);
}
else if (fdef)
{
QCC_PR_ParseWarning(WARN_DUPLICATEDEFINITION, "%s::%s shadows a global", newt->name, parmname);
QCC_PR_ParsePrintDef(0, fdef);
}
if (fdef)
QCC_FreeDef(fdef);
}
}
}
QCC_PR_Expect(";");
if (isignored) //member doesn't really exist
continue;
//static members are technically just funny-named globals, and do not generate fields.
if (isnonvirt || isstatic || (newparm->type == ev_function && !arraysize))
{
QC_snprintfz(membername, sizeof(membername), "%s::%s", classname, parmname);
QCC_FreeDef(QCC_PR_GetDef(newparm, membername, NULL, true, 0, GDF_CONST));
if (isnonvirt || isstatic)
continue;
}
fieldtype = QCC_PR_NewType(parmname, ev_field, false);
fieldtype->aux_type = newparm;
fieldtype->size = newparm->size;
parms = realloc(parms, sizeof(*parms) * (numparms+1));
parms[numparms].ofs = 0;
parms[numparms].out = false;
parms[numparms].optional = false;
parms[numparms].isvirtual = isvirt;
parms[numparms].paramname = parmname;
parms[numparms].arraysize = arraysize;
parms[numparms].type = newparm;
parms[numparms].defltvalue.cast = NULL;
basicindex = 0;
found = false;
for(pc = newt; pc && !found; pc = pc->parentclass)
{
struct QCC_typeparam_s *pp;
int numpc;
int i;
if (pc == newt)
{
pp = parms;
numpc = numparms;
}
else
{
pp = pc->params;
numpc = pc->num_parms;
}
for (i = 0; i < numpc; i++)
{
if (pp[i].type->type == newparm->type)
{
if (!strcmp(pp[i].paramname, parmname))
{
if (typecmp(pp[i].type, newparm))
{
char bufc[256];
char bufp[256];
TypeName(pp[i].type, bufp, sizeof(bufp));
TypeName(newparm, bufc, sizeof(bufc));
QCC_PR_ParseError(0, "%s defined as %s in %s, but %s in %s\n", parmname, bufc, newt->name, bufp, pc->name);
}
basicindex = pp[i].ofs;
found = true;
break;
}
if ((unsigned int)basicindex < pp[i].ofs+pp[i].type->size*(pp[i].arraysize?pp[i].arraysize:1)) //if we found one with the index
basicindex = pp[i].ofs+pp[i].type->size*(pp[i].arraysize?pp[i].arraysize:1); //make sure we don't union it.
}
}
}
parms[numparms].ofs = basicindex; //ulp, its new
numparms++;
if (found)
continue;
if (!*basictypes[newparm->type])
QCC_PR_ParseError(0, "members of type %s are not supported (%s::%s)\n", basictypenames[newparm->type], classname, parmname);
//make sure the union is okay
d = QCC_PR_GetDef(NULL, parmname, NULL, 0, 0, GDF_CONST);
if (d)
basicindex = 0;
else
{ //don't go all weird with unioning generic fields
QC_snprintfz(membername, sizeof(membername), "::*%s", basictypenames[newparm->type]);
d = QCC_PR_GetDef(NULL, membername, NULL, 0, 0, GDF_CONST);
if (!d)
{
d = QCC_PR_GetDef(QCC_PR_FieldType(*basictypes[newparm->type]), membername, NULL, 2, 0, GDF_CONST|GDF_POSTINIT|GDF_USED);
// for (i = 0; (unsigned int)i < newparm->size*(arraysize?arraysize:1); i++)
// d->symboldata[i]._int = pr.size_fields+i;
// pr.size_fields += i;
d->used = true;
d->referenced = true; //always referenced, so you can inherit safely.
}
if (d->arraysize < basicindex+(arraysize?arraysize:1))
{
if (d->symboldata)
QCC_PR_ParseError(ERR_INTERNAL, "array members are kinda limited, sorry. try rearranging them or adding padding for alignment\n"); //FIXME: add relocs to cope with this all of a type can then be contiguous and thus allow arrays.
else
{
int newsize = basicindex+(arraysize?arraysize:1);
if (d->type->type == ev_union || d->type->type == ev_struct)
d->arraysize = newsize;
else while(d->arraysize < newsize)
{
QC_snprintfz(membername, sizeof(membername), "::%s[%i]", basictypenames[newparm->type], d->arraysize/d->type->size);
QCC_PR_DummyDef(d->type, membername, d->scope, 0, d, d->arraysize, true, GDF_CONST);
d->arraysize+=d->type->size;
}
}
}
}
QCC_FreeDef(d);
//and make sure we can do member::__fname
//actually, that seems pointless.
QC_snprintfz(membername, sizeof(membername), "%s::"MEMBERFIELDNAME, classname, parmname);
// externs->Printf("define %s -> %s\n", membername, d->name);
d = QCC_PR_DummyDef(fieldtype, membername, pr_scope, arraysize, d, basicindex, true, (isnull?0:GDF_CONST)|(opt_classfields?GDF_STRIP:0));
d->referenced = true; //always referenced, so you can inherit safely.
}
if (redeclaration)
{
int i;
redeclaration = newt->num_parms != numparms;
for (i = 0; i < numparms && (unsigned int)i < newt->num_parms; i++)
{
if (newt->params[i].arraysize != parms[i].arraysize || typecmp(newt->params[i].type, parms[i].type) || strcmp(newt->params[i].paramname, parms[i].paramname))
{
QCC_PR_ParseError(ERR_REDECLARATION, "Incompatible redeclaration of class %s. %s differs.", classname, parms[i].paramname);
break;
}
}
if (newt->num_parms != numparms)
QCC_PR_ParseError(ERR_REDECLARATION, "Incompatible redeclaration of class %s.", classname);
}
else
{
newt->num_parms = numparms;
newt->params = qccHunkAlloc(sizeof(*type->params) * numparms);
memcpy(newt->params, parms, sizeof(*type->params) * numparms);
}
free(parms);
{
QCC_def_t *d;
//if there's a constructor, make sure the spawnfunc_ function is defined so that its available to maps.
QC_snprintfz(membername, sizeof(membername), "spawnfunc_%s", classname);
d = QCC_PR_GetDef(type_function, membername, NULL, true, 0, GDF_CONST);
d->funccalled = true;
d->referenced = true;
QCC_FreeDef(d);
}
QCC_PR_Expect(";");
return NULL;
}
//FIXME: these should be moved into parsetype
if (QCC_PR_CheckKeyword(keyword_enum, "enum"))
{
newt = QCC_PR_ParseEnum(false);
if (QCC_PR_CheckToken(";"))
return NULL;
return newt;
}
if (QCC_PR_CheckKeyword(keyword_enumflags, "enumflags"))
{
newt = QCC_PR_ParseEnum(true);
if (QCC_PR_CheckToken(";"))
return NULL;
return newt;
}
structtype = ev_void;
if (QCC_PR_CheckKeyword (keyword_union, "union"))
structtype = ev_union;
else if (QCC_PR_CheckKeyword (keyword_struct, "struct"))
structtype = ev_struct;
if (structtype != ev_void)
{
struct QCC_typeparam_s *parms = NULL, *oldparm;
int numparms = 0;
unsigned int arraysize;
char *parmname;
if (QCC_PR_CheckToken("{"))
{
//nameless struct
newt = QCC_PR_NewType(structtype==ev_union?"<union>":"<struct>", structtype, false);
}
else
{
QCC_type_t *parenttype;
char *tname = QCC_PR_ParseName();
if (structtype == ev_struct && QCC_PR_CheckToken(":"))
{
char *parentname = QCC_PR_ParseName();
parenttype = QCC_TypeForName(parentname);
if (!parenttype)
QCC_PR_ParseError(ERR_NOTANAME, "Parent type %s was not yet defined", parentname);
if (parenttype->type != ev_struct)
QCC_PR_ParseError(ERR_NOTANAME, "Parent type %s is not a struct", parentname);
}
else
parenttype = NULL;
newt = QCC_TypeForName(tname);
if (!newt)
{
newt = QCC_PR_NewType(tname, ev_struct, true);
newt->parentclass = parenttype;
}
else if (parenttype && newt->parentclass != parenttype)
QCC_PR_ParseError(ERR_NOTANAME, "Redeclaration of struct with different parent type", tname, parenttype->name);
if (newt->size)
{
if (QCC_PR_CheckToken("{"))
QCC_PR_ParseError(ERR_NOTANAME, "%s %s is already defined", structtype==ev_union?"union":"struct", newt->name);
return newt;
}
//struct declaration only, not definition.
if (parenttype)
QCC_PR_Expect("{");
else if (!QCC_PR_CheckToken("{"))
return newt;
}
if (newt->parentclass)
newt->size = newt->parentclass->size;
else
newt->size=0;
type = NULL;
newparm = NULL;
for (;;)
{
//in qc, functions are assignable references like anything else, so no modifiers means the qc will need to assign to it somewhere.
//virtual functions are still references, but we initialise them somewhere
//nonvirtual functions and static functions are kinda the same thing
pbool isnonvirt = false;
pbool isstatic = false;
pbool isvirt = false;
QCC_sref_t defaultval;
if (QCC_PR_CheckToken("}"))
{
if (newparm)
QCC_PR_ParseError(ERR_EXPECTED, "missing semi-colon");
break;
}
else if (QCC_PR_CheckToken(";"))
{
newparm = NULL;
continue;
}
else if (QCC_PR_CheckToken(","))
{ //same as last type, unless initial/after-semicolon
if (!newparm)
QCC_PR_ParseError(ERR_EXPECTED, "element missing type");
newparm = QCC_PR_NewType(newparm->name, newparm->type, false);
}
else
{ //new type!
if (newparm)
QCC_PR_ParseError(ERR_EXPECTED, "missing semi-colon"); //allow a missing semi-colon on functions, for mixed-style functions.
if (QCC_PR_CheckKeyword(1, "public"))
/*ispublic = true*/;
else if (QCC_PR_CheckKeyword(1, "private"))
/*isprivate = true*/;
else if (QCC_PR_CheckKeyword(1, "protected"))
/*isprotected = true*/;
if (QCC_PR_CheckKeyword(1, "nonvirtual"))
isnonvirt = true;
else if (QCC_PR_CheckKeyword(1, "static"))
isstatic = true;
else if (QCC_PR_CheckKeyword(1, "virtual"))
isvirt = true;
// else if (QCC_PR_CheckKeyword(1, "ignore"))
// isignored = true;
// else if (QCC_PR_CheckKeyword(1, "strip"))
// isignored = true;
newparm = QCC_PR_ParseType(false, false);
}
type = newparm;
while (QCC_PR_CheckToken("*"))
type = QCC_PointerTypeTo(type);
arraysize = 0;
if (QCC_PR_CheckToken(";"))
{ //annonymous structs do weird scope stuff.
newparm = NULL;
parmname = "";
}
else
{
parmname = qccHunkAlloc(strlen(pr_token)+1);
strcpy(parmname, pr_token);
QCC_PR_Lex();
if (QCC_PR_CheckToken("["))
{
arraysize=QCC_PR_IntConstExpr();
if (!arraysize)
QCC_PR_ParseError(ERR_NOTANAME, "cannot cope with 0-sized arrays");
QCC_PR_Expect("]");
}
if (QCC_PR_CheckToken("("))
type = QCC_PR_ParseFunctionType(false, type);
}
if (type == newt || ((type->type == ev_struct || type->type == ev_union) && !type->size))
{
QCC_PR_ParseWarning(ERR_NOTANAME, "type %s not fully defined yet", type->name);
continue;
}
if ((isnonvirt || isvirt) && type->type != ev_function)
QCC_PR_ParseWarning(ERR_INTERNAL, "[non]virtual members must be functions", type->name);
//static members are technically just funny-named globals, and do not generate fields.
if (isnonvirt || isstatic || isvirt)
{ //either way its a regular global. the difference being static has no implicit this/self argument.
QCC_def_t *d;
char membername[2048];
if (!isstatic)
type = QCC_PR_MakeThiscall(type, newt);
QC_snprintfz(membername, sizeof(membername), "%s::%s", newt->name, parmname);
d = QCC_PR_GetDef(type, membername, NULL, true, 0, (type->type==ev_function)?GDF_CONST:0);
if (QCC_PR_CheckToken("=") || (type->type == ev_function && QCC_PR_PeekToken("{")))
QCC_PR_ParseInitializerDef(d, 0);
QCC_FreeDef(d);
if (!QCC_PR_PeekToken(","))
newparm = NULL;
if (isvirt)
{
defaultval.ofs = 0;
defaultval.cast = d->type;
defaultval.sym = d;
}
else
continue;
}
else
{
defaultval.cast = NULL;
if (QCC_PR_CheckToken("="))
{
defaultval = QCC_PR_ParseDefaultInitialiser(type);
QCC_PR_ParseWarning(ERR_INTERNAL, "TODO: initialised struct members are not implemented yet", type->name);
}
}
parms = realloc(parms, sizeof(*parms) * (numparms+1));
oldparm = QCC_PR_FindStructMember(newt, parmname, &parms[numparms].ofs);
if (oldparm && oldparm->arraysize == arraysize && !typecmp_lax(oldparm->type, type))
{
if (!isvirt)
continue;
}
else if (structtype == ev_union)
{
parms[numparms].ofs = 0;
if (type->size*(arraysize?arraysize:1) > newt->size)
newt->size = type->size*(arraysize?arraysize:1);
}
else
{
parms[numparms].ofs = newt->size;
newt->size += type->size*(arraysize?arraysize:1);
}
parms[numparms].arraysize = arraysize;
parms[numparms].out = false;
parms[numparms].optional = false;
parms[numparms].isvirtual = isvirt;
parms[numparms].paramname = parmname;
parms[numparms].type = type;
parms[numparms].defltvalue = defaultval;
numparms++;
}
if (!numparms)
QCC_PR_ParseError(ERR_NOTANAME, "%s %s has no members", structtype==ev_union?"union":"struct", newt->name);
newt->num_parms = numparms;
newt->params = qccHunkAlloc(sizeof(*type->params) * numparms);
memcpy(newt->params, parms, sizeof(*type->params) * numparms);
free(parms);
return newt;
}
type = QCC_TypeForName(name);
if (!type)
{
if (!*name)
{
QCC_PR_ParseError(ERR_NOTANAME, "type missing name");
return NULL;
}
//some reacc types...
if (flag_acc && !stricmp("Void", name))
type = type_void;
else if (flag_acc && !stricmp("Real", name))
type = type_float;
else if (flag_acc && !stricmp("Vector", name))
type = type_vector;
else if (flag_acc && !stricmp("Object", name))
type = type_entity;
else if (flag_acc && !stricmp("String", name))
type = type_string;
else if (flag_acc && !stricmp("PFunc", name))
type = type_function;
else
{
if (silentfail)
return NULL;
QCC_PR_ParseError (ERR_NOTATYPE, "\"%s\" is not a type", name);
type = type_float; // shut up compiler warning
}
}
QCC_PR_Lex ();
while (QCC_PR_CheckToken("*"))
type = QCC_PointerTypeTo(type);
if (QCC_PR_CheckToken ("(")) //this is followed by parameters. Must be a function.
{
type_inlinefunction = true;
type = QCC_PR_ParseFunctionType(newtype, type);
}
else
{
if (newtype)
{
type = QCC_PR_DuplicateType(type, false);
}
}
return type;
}
#endif