fteqw/engine/qclib/qcc.h
Spoike f3ae58608b QUAKETC with dpmaster fix.
don't archive csprogs when it's getting saved into demos anyway.
bound bones when using a model with less bones than the relative skeletal object.
mute(dprint) xinput restarts.

git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5205 fc73d0e0-1445-4013-8a0c-d673dee63da5
2018-01-24 12:13:32 +00:00

1174 lines
37 KiB
C

#define COMPILER
#define PROGSUSED
//#define COMMONINLINES
//#define inline _inline
#include "cmdlib.h"
#include <setjmp.h>
/*
#include <stdio.h>
#include <conio.h>
#include "pr_comp.h"
*/
//this is for testing
#define WRITEASM
#ifdef __MINGW32_VERSION
#define MINGW
#endif
#define progfuncs qccprogfuncs
extern progfuncs_t *qccprogfuncs;
#ifndef _WIN32
#define stricmp strcasecmp
#define strnicmp strncasecmp
#endif
#ifdef _MSC_VER //ffs
#define strtoull _strtoui64
#ifndef PRIxPTR
#define PRIxPTR "Ix"
#endif
#else
#ifndef PRIxPTR
#define PRIxPTR "Ix"
#endif
#endif
void *qccHunkAlloc(size_t mem);
void qccClearHunk(void);
extern short (*PRBigShort) (short l);
extern short (*PRLittleShort) (short l);
extern int (*PRBigLong) (int l);
extern int (*PRLittleLong) (int l);
extern float (*PRBigFloat) (float l);
extern float (*PRLittleFloat) (float l);
#define MAX_ERRORS 10
#define MAX_NAME 256 // chars long
extern unsigned int MAX_REGS;
extern unsigned int MAX_LOCALS;
extern unsigned int MAX_TEMPS;
extern int MAX_STRINGS;
extern int MAX_GLOBALS;
extern int MAX_FIELDS;
extern int MAX_STATEMENTS;
extern int MAX_FUNCTIONS;
#define QCC_MAX_SOUNDS 1024 //convert to int?
#define QCC_MAX_TEXTURES 1024 //convert to int?
#define QCC_MAX_MODELS 1024 //convert to int?
#define QCC_MAX_FILES 1024 //convert to int?
#define MAX_DATA_PATH 64
extern int MAX_CONSTANTS;
#define MAXCONSTANTNAMELENGTH 64
#define MAXCONSTANTPARAMLENGTH 32
#define MAXCONSTANTPARAMS 32
typedef enum {QCF_STANDARD, QCF_HEXEN2, QCF_DARKPLACES, QCF_FTE, QCF_FTEDEBUG, QCF_FTEH2, QCF_KK7, QCF_QTEST} qcc_targetformat_t;
extern qcc_targetformat_t qcc_targetformat;
/*
TODO:
"stopped at 10 errors"
other pointer types for models and clients?
compact string heap?
always initialize all variables to something safe
the def->type->type arrangement is really silly.
return type checking
parm count type checking
immediate overflow checking
pass the first two parms in call->b and call->c
*/
/*
comments
--------
// comments discard text until the end of line
/ * * / comments discard all enclosed text (spaced out on this line because this documentation is in a regular C comment block, and typing them in normally causes a parse error)
code structure
--------------
A definition is:
<type> <name> [ = <immediate>] {, <name> [ = <immediate>] };
types
-----
simple types: void, float, vector, string, or entity
float width, height;
string name;
entity self, other;
vector types:
vector org; // also creates org_x, org_y, and org_z float defs
A function type is specified as: simpletype ( type name {,type name} )
The names are ignored except when the function is initialized.
void() think;
entity() FindTarget;
void(vector destination, float speed, void() callback) SUB_CalcMove;
void(...) dprint; // variable argument builtin
A field type is specified as: .type
.vector origin;
.string netname;
.void() think, touch, use;
names
-----
Names are a maximum of 64 characters, must begin with A-Z,a-z, or _, and can continue with those characters or 0-9.
There are two levels of scoping: global, and function. The parameter list of a function and any vars declared inside a function with the "local" statement are only visible within that function,
immediates
----------
Float immediates must begin with 0-9 or minus sign. .5 is illegal.
A parsing ambiguity is present with negative constants. "a-5" will be parsed as "a", then "-5", causing an error. Seperate the - from the digits with a space "a - 5" to get the proper behavior.
12
1.6
0.5
-100
Vector immediates are three float immediates enclosed in single quotes.
'0 0 0'
'20.5 -10 0.00001'
String immediates are characters enclosed in double quotes. The string cannot contain explicit newlines, but the escape character \n can embed one. The \" escape can be used to include a quote in the string.
"maps/jrwiz1.bsp"
"sound/nin/pain.wav"
"ouch!\n"
Code immediates are statements enclosed in {} braces.
statement:
{ <multiple statements> }
<expression>;
local <type> <name> [ = <immediate>] {, <name> [ = <immediate>] };
return <expression>;
if ( <expression> ) <statement> [ else <statement> ];
while ( <expression> ) <statement>;
do <statement> while ( <expression> );
<function name> ( <function parms> );
expression:
combiations of names and these operators with standard C precedence:
"&&", "||", "<=", ">=","==", "!=", "!", "*", "/", "-", "+", "=", ".", "<", ">", "&", "|"
Parenthesis can be used to alter order of operation.
The & and | operations perform integral bit ops on floats
A built in function immediate is a number sign followed by an integer.
#1
#12
compilation
-----------
Source files are processed sequentially without dumping any state, so if a defs file is the first one processed, the definitions will be available to all other files.
The language is strongly typed and there are no casts.
Anything that is initialized is assumed to be constant, and will have immediates folded into it. If you change the value, your program will malfunction. All uninitialized globals will be saved to savegame files.
Functions cannot have more than eight parameters.
Error recovery during compilation is minimal. It will skip to the next global definition, so you will never see more than one error at a time in a given function. All compilation aborts after ten error messages.
Names can be defined multiple times until they are defined with an initialization, allowing functions to be prototyped before their definition.
void() MyFunction; // the prototype
void() MyFunction = // the initialization
{
dprint ("we're here\n");
};
entities and fields
-------------------
execution
---------
Code execution is initiated by C code in quake from two main places: the timed think routines for periodic control, and the touch function when two objects impact each other.
There are three global variables that are set before beginning code execution:
entity world; // the server's world object, which holds all global
// state for the server, like the deathmatch flags
// and the body ques.
entity self; // the entity the function is executing for
entity other; // the other object in an impact, not used for thinks
float time; // the current game time. Note that because the
// entities in the world are simulated sequentially,
// time is NOT strictly increasing. An impact late
// in one entity's time slice may set time higher
// than the think function of the next entity.
// The difference is limited to 0.1 seconds.
Execution is also caused by a few uncommon events, like the addition of a new client to an existing server.
There is a runnaway counter that stops a program if 100000 statements are executed, assuming it is in an infinite loop.
It is acceptable to change the system set global variables. This is usually done to pose as another entity by changing self and calling a function.
The interpretation is fairly efficient, but it is still over an order of magnitude slower than compiled C code. All time consuming operations should be made into built in functions.
A profile counter is kept for each function, and incremented for each interpreted instruction inside that function. The "profile" console command in Quake will dump out the top 10 functions, then clear all the counters. The "profile all" command will dump sorted stats for every function that has been executed.
afunc ( 4, bfunc(1,2,3));
will fail because there is a shared parameter marshaling area, which will cause the 1 from bfunc to overwrite the 4 already placed in parm0. When a function is called, it copies the parms from the globals into it's privately scoped variables, so there is no collision when calling another function.
total = factorial(3) + factorial(4);
Will fail because the return value from functions is held in a single global area. If this really gets on your nerves, tell me and I can work around it at a slight performance and space penalty by allocating a new register for the function call and copying it out.
built in functions
------------------
void(string text) dprint;
Prints the string to the server console.
void(entity client, string text) cprint;
Prints a message to a specific client.
void(string text) bprint;
Broadcast prints a message to all clients on the current server.
entity() spawn;
Returns a totally empty entity. You can manually set everything up, or just set the origin and call one of the existing entity setup functions.
entity(entity start, .string field, string match) find;
Searches the server entity list beginning at start, looking for an entity that has entity.field = match. To start at the beginning of the list, pass world. World is returned when the end of the list is reached.
<FIXME: define all the other functions...>
gotchas
-------
The && and || operators DO NOT EARLY OUT like C!
Don't confuse single quoted vectors with double quoted strings
The function declaration syntax takes a little getting used to.
Don't forget the ; after the trailing brace of a function initialization.
Don't forget the "local" before defining local variables.
There are no ++ / -- operators, or operate/assign operators.
*/
#if 1
#include "hash.h"
extern hashtable_t compconstantstable;
extern hashtable_t globalstable, localstable, typedeftable;
#endif
#ifdef WRITEASM
extern FILE *asmfile;
extern pbool asmfilebegun;
#endif
//=============================================================================
// offsets are always multiplied by 4 before using
typedef unsigned int gofs_t; // offset in global data block
typedef struct QCC_function_s QCC_function_t;
#define MAX_PARMS 8
//keep this sizeof(float)
typedef union QCC_eval_s
{
QCC_string_t string;
float _float;
float vector[1];
func_t function;
int _int;
// union QCC_eval_s *ptr;
} QCC_eval_t;
//must be the maximum size possible for a single basic type.
typedef union QCC_evalstorage_s
{
QCC_string_t string;
float _float;
float vector[3];
func_t function;
int _int;
// union QCC_eval_s *ptr;
} QCC_evalstorage_t;
struct QCC_typeparam_s
{
struct QCC_type_s *type;
QCC_sref_t defltvalue;
pbool optional;
unsigned char out; //0=in,1==inout,2=out
unsigned int ofs;
unsigned int arraysize;
char *paramname;
};
struct accessor_s
{
struct accessor_s *next;
struct QCC_type_s *type;
struct QCC_type_s *indexertype; //null if not indexer
QCC_sref_t getset_func[2];
pbool getset_isref[2];
char *fieldname;
};
typedef struct QCC_type_s
{
etype_t type;
struct QCC_type_s *parentclass; //type_entity...
// function types are more complex
struct QCC_type_s *aux_type; // return type or field type
struct QCC_typeparam_s *params; //[num_parms]
unsigned int num_parms;
unsigned int size;
pbool typedefed:1;
pbool vargs:1; //function has vargs
pbool vargcount:1; //function has special varg count param
char *name;
char *aname;
struct accessor_s *accessors;
struct QCC_type_s *ptrto; //(cache) this points to a type that is a pointer back to this type. yeah, weird.
} QCC_type_t;
int typecmp(QCC_type_t *a, QCC_type_t *b);
int typecmp_lax(QCC_type_t *a, QCC_type_t *b);
QCC_type_t *QCC_PR_DuplicateType(QCC_type_t *in, pbool recurse);
typedef struct temp_s temp_t;
void QCC_PurgeTemps(void);
void QCC_FinaliseTemps(void);
//not written
typedef struct QCC_def_s
{
QCC_type_t *type;
char *name;
char *comment; //ui info
struct QCC_def_s *next;
struct QCC_def_s *nextlocal; //provides a chain of local variables for the opt_locals_marshalling optimisation.
gofs_t ofs;
struct QCC_function_s *scope; // function the var was defined in, or NULL
struct QCC_def_s *deftail; // arrays and structs create multiple globaldef objects providing different types at the different parts of the single object (struct), or alternative names (vectors). this allows us to correctly set the const type based upon how its initialised.
struct QCC_def_s *generatedfor;
int initialized; // 1 when a declaration included "= immediate". 2 = extern.
int constant; // 1 says we can use the value over and over again. 2 is used on fields, for some reason.
struct QCC_def_s *symbolheader; //this is the original symbol within which the def is stored.
union QCC_eval_s *symboldata; //null if uninitialised. use sym->symboldata[sym->ofs] to index.
unsigned int symbolsize; //total byte size of symbol
int refcount; //if 0, temp can be reused. tracked on globals too in order to catch bugs that would otherwise be a little too obscure.
int timescalled; //part of the opt_stripfunctions optimisation.
const char *filen;
int s_filed;
int s_line;
int arraysize;
//should really use proper flags
pbool funccalled:1; //was called somewhere.
pbool read:1; //variable was read
pbool written:1; //variable was written
pbool referenced:1; //was used somewhere in the code (even if it can still be stripped). this controls warnings only.
pbool shared:1; //weird multiprogs flag thing.
pbool saved:1; //def may be saved to saved games.
pbool isstatic:1; //global, even if scoped. also specific to the file it was seen in.
pbool subscoped_away:1; //this local is no longer linked into the locals hash table. don't do remove it twice.
// pbool followptr:1; //float &foo;
pbool strip:1; //info about this def should be stripped. it may still consume globals space however, and its storage can still be used, its just not visible.
pbool allowinline:1; //calls to this function will attempt to inline the specified function. requires const, supposedly.
pbool used:1; //if it remains 0, it may be stripped. this is forced for functions and fields. commonly 0 on fields.
pbool unused:1; //silently strip it if it wasn't referenced.
pbool localscope:1; //is a local, as opposed to a static (which is only visible within its scope)
pbool arraylengthprefix:1; //hexen2 style arrays have a length prefixed to them for auto bounds checks. this can only work reliably for simple non-struct arrays.
pbool assumedtype:1; //#merged. the type is not reliable.
pbool weak:1; //ignore any initialiser value (only permitted on functions)
pbool accumulate:1; //don't finalise the function's statements.
pbool nofold:1;
int fromstatement; //statement that it is valid from.
temp_t *temp;
} QCC_def_t;
struct temp_s {
QCC_def_t *def;
unsigned char locked;
unsigned int size;
struct QCC_function_s *lastfunc;
unsigned int laststatement;
};
extern size_t tempsused;
typedef struct
{
enum{
REF_GLOBAL, //(global.ofs) - use vector[2] is an array ref or vector_z
REF_ARRAY, //(global.ofs+wordoffset) - constant offsets should be direct references, variable offsets will generally result in function calls
REF_ARRAYHEAD,//(global) - like REF_ARRAY, but otherwise convert to a pointer.
REF_POINTER,//*(pointerdef+wordindex) - maths...
REF_FIELD, //(entity.field) - reading is a single load, writing requires address+storep
REF_STRING, //"hello"[1]=='e' - special opcodes, or str2chr builtin, or something
REF_NONVIRTUAL, //(global.ofs) - identical to global except for function calls, where index can be used to provide the 'newself' for the call.
REF_ACCESSOR //buf_create()[5]
} type;
QCC_sref_t base;
QCC_sref_t index;
QCC_type_t *cast; //entity.float is float, not pointer.
struct accessor_s *accessor; //the accessor field of base that we're trying to use
int postinc; //+1 or -1
pbool readonly; //for whatever reason, like base being a const
} QCC_ref_t;
//============================================================================
// pr_loc.h -- program local defs
//=============================================================================
extern char QCC_copyright[1024];
extern char QCC_Packname[5][128];
extern int QCC_packid;
const extern unsigned int type_size[];
//extern QCC_def_t *def_for_type[9];
extern QCC_type_t *type_void, *type_string, *type_float, *type_vector, *type_entity, *type_field, *type_function, *type_floatfunction, *type_pointer, *type_floatpointer, *type_intpointer, *type_integer, *type_variant, *type_floatfield;
extern char *basictypenames[];
struct QCC_function_s
{
int builtin; // the builtin number. >= 0
int code; // first statement. if -1, is a builtin.
dfunction_t *merged; // this function was merged. this is the index to use to ensure that the parms are sized correctly..
string_t s_filed; // source file with definition
const char *filen;
int line;
int line_end;
char *name; //internal name of function
struct QCC_function_s *parentscope; //for nested functions
struct QCC_type_s *type; //same as the def's type
struct QCC_def_s *def;
struct QCC_def_s *firstlocal;
QCC_sref_t returndef; //default return value
pbool privatelocals; //false means locals may overlap with other functions, true is needed for compat if stuff is uninitialised.
// unsigned int parm_ofs[MAX_PARMS]; // always contiguous, right?
QCC_statement_t *statements; //if set, then this function isn't finialised yet.
size_t numstatements;
};
//
// output generated by prog parsing
//
typedef struct
{
char *memory;
int max_memory;
int current_memory;
QCC_type_t *types;
QCC_def_t def_head; // unused head of linked list
QCC_def_t *def_tail; // add new defs after this and move it
QCC_def_t local_head; // chain of variables which need to be pushed and stuff (head unused).
QCC_def_t *local_tail; // add new defs after this and move it
unsigned int size_fields;
} QCC_pr_info_t;
extern QCC_pr_info_t pr;
typedef struct
{
char name[MAXCONSTANTNAMELENGTH];
char *value;
char params[MAXCONSTANTPARAMS][MAXCONSTANTPARAMLENGTH];
int numparams;
int inside:10; //cuts off at some point
pbool used:1;
pbool evil:1;
pbool varg:1;
const char *fromfile;
int fromline;
int namelen;
} CompilerConstant_t;
char *QCC_PR_GetDefinesList(void);
//============================================================================
extern pbool pr_dumpasm;
//extern QCC_def_t **pr_global_defs; // to find def for a global variable
typedef enum {
tt_eof, // end of file reached
tt_name, // an alphanumeric name token
tt_punct, // code punctuation
tt_immediate, // string, float, vector
} token_type_t;
extern char pr_token[8192];
extern token_type_t pr_token_type;
extern int pr_token_line;
extern int pr_token_line_last;
extern QCC_type_t *pr_immediate_type;
extern QCC_evalstorage_t pr_immediate;
extern pbool keyword_asm;
extern pbool keyword_break;
extern pbool keyword_case;
extern pbool keyword_class;
extern pbool keyword_const;
extern pbool keyword_inout;
extern pbool keyword_optional;
extern pbool keyword_continue;
extern pbool keyword_default;
extern pbool keyword_do;
extern pbool keyword_entity;
extern pbool keyword_float;
extern pbool keyword_for;
extern pbool keyword_goto;
extern pbool keyword_int;
extern pbool keyword_integer;
extern pbool keyword_state;
extern pbool keyword_string;
extern pbool keyword_struct;
extern pbool keyword_switch;
extern pbool keyword_thinktime;
extern pbool keyword_loop;
extern pbool keyword_until;
extern pbool keyword_var;
extern pbool keyword_vector;
extern pbool keyword_union;
extern pbool keyword_enum; //kinda like in c, but typedef not supported.
extern pbool keyword_enumflags; //like enum, but doubles instead of adds 1.
extern pbool keyword_typedef; //fixme
extern pbool keyword_extern; //function is external, don't error or warn if the body was not found
extern pbool keyword_shared; //mark global to be copied over when progs changes (part of FTE_MULTIPROGS)
extern pbool keyword_noref; //nowhere else references this, don't strip it.
extern pbool keyword_nosave; //don't write the def to the output.
extern pbool keyword_inline; //don't write the def to the output.
extern pbool keyword_strip; //don't write the def to the output.
extern pbool keyword_union; //you surly know what a union is!
extern pbool keyword_wrap;
extern pbool keyword_weak;
extern pbool keyword_accumulate;
extern pbool keyword_unused;
extern pbool keyword_used;
extern pbool keyword_static;
extern pbool keyword_nonstatic;
extern pbool keyword_ignore;
extern pbool keywords_coexist;
extern pbool output_parms;
extern pbool autoprototype, autoprototyped, parseonly;
extern pbool pr_subscopedlocals;
extern pbool flag_nullemptystr, flag_ifstring, flag_brokenifstring, flag_iffloat, flag_ifvector, flag_vectorlogic;
extern pbool flag_acc;
extern pbool flag_caseinsensitive;
extern pbool flag_laxcasts;
extern pbool flag_hashonly;
extern pbool flag_fasttrackarrays;
extern pbool flag_assume_integer;
extern pbool flag_msvcstyle;
extern pbool flag_debugmacros;
extern pbool flag_filetimes;
extern pbool flag_typeexplicit;
extern pbool flag_boundchecks;
extern pbool flag_brokenarrays;
extern pbool flag_rootconstructor;
extern pbool flag_guiannotate;
extern pbool flag_qccx;
extern pbool flag_attributes;
extern pbool flag_assumevar;
extern pbool flag_dblstarexp;
extern pbool flag_allowuninit;
extern pbool flag_cpriority;
extern pbool flag_embedsrc;
extern pbool flag_nopragmafileline;
extern pbool opt_overlaptemps;
extern pbool opt_shortenifnots;
extern pbool opt_noduplicatestrings;
extern pbool opt_constantarithmatic;
extern pbool opt_nonvec_parms;
extern pbool opt_constant_names;
extern pbool opt_precache_file;
extern pbool opt_filenames;
extern pbool opt_assignments;
extern pbool opt_unreferenced;
extern pbool opt_function_names;
extern pbool opt_locals;
extern pbool opt_dupconstdefs;
extern pbool opt_constant_names_strings;
extern pbool opt_return_only;
extern pbool opt_compound_jumps;
//extern pbool opt_comexprremoval;
extern pbool opt_stripfunctions;
extern pbool opt_locals_overlapping;
extern pbool opt_logicops;
extern pbool opt_vectorcalls;
extern pbool opt_classfields;
extern int optres_shortenifnots;
extern int optres_overlaptemps;
extern int optres_noduplicatestrings;
extern int optres_constantarithmatic;
extern int optres_nonvec_parms;
extern int optres_constant_names;
extern int optres_precache_file;
extern int optres_filenames;
extern int optres_assignments;
extern int optres_unreferenced;
extern int optres_function_names;
extern int optres_locals;
extern int optres_dupconstdefs;
extern int optres_constant_names_strings;
extern int optres_return_only;
extern int optres_compound_jumps;
//extern int optres_comexprremoval;
extern int optres_stripfunctions;
extern int optres_locals_overlapping;
extern int optres_logicops;
extern int optres_inlines;
pbool CompileParams(progfuncs_t *progfuncs, void(*cb)(void), int nump, char **parms);
void QCC_PR_PrintStatement (QCC_statement_t *s);
void QCC_PR_Lex (void);
// reads the next token into pr_token and classifies its type
QCC_type_t *QCC_PR_NewType (char *name, int basictype, pbool typedefed);
QCC_type_t *QCC_PointerTypeTo(QCC_type_t *type);
QCC_type_t *QCC_PR_ParseType (int newtype, pbool silentfail);
QCC_sref_t QCC_PR_ParseDefaultInitialiser(QCC_type_t *type);
extern pbool type_inlinefunction;
QCC_type_t *QCC_TypeForName(char *name);
QCC_type_t *QCC_PR_ParseFunctionType (int newtype, QCC_type_t *returntype);
QCC_type_t *QCC_PR_ParseFunctionTypeReacc (int newtype, QCC_type_t *returntype);
QCC_type_t *QCC_PR_GenFunctionType (QCC_type_t *rettype, struct QCC_typeparam_s *args, int numargs);
char *QCC_PR_ParseName (void);
CompilerConstant_t *QCC_PR_DefineName(char *name);
const char *QCC_VarAtOffset(QCC_sref_t ref);
void QCC_PrioritiseOpcodes(void);
int QCC_PR_IntConstExpr(void);
#ifndef COMMONINLINES
pbool QCC_PR_CheckImmediate (const char *string);
pbool QCC_PR_CheckToken (const char *string);
pbool QCC_PR_PeekToken (const char *string);
pbool QCC_PR_CheckName (const char *string);
void QCC_PR_Expect (const char *string);
pbool QCC_PR_CheckKeyword(int keywordenabled, const char *string);
#endif
pbool QCC_PR_CheckTokenComment(const char *string, char **comment);
void VARGS QCC_PR_ParseError (int errortype, const char *error, ...);
pbool VARGS QCC_PR_ParseWarning (int warningtype, const char *error, ...);
pbool VARGS QCC_PR_Warning (int type, const char *file, int line, const char *error, ...);
void VARGS QCC_PR_Note (int type, const char *file, int line, const char *error, ...);
void QCC_PR_ParsePrintDef (int warningtype, QCC_def_t *def);
void QCC_PR_ParsePrintSRef (int warningtype, QCC_sref_t sref);
void VARGS QCC_PR_ParseErrorPrintDef (int errortype, QCC_def_t *def, const char *error, ...);
void VARGS QCC_PR_ParseErrorPrintSRef (int errortype, QCC_sref_t sref, const char *error, ...);
int QCC_WarningForName(const char *name);
char *QCC_NameForWarning(int idx);
//QccMain.c must be changed if this is changed.
enum {
WARN_DEBUGGING,
WARN_ERROR,
WARN_DEPRECATEDWARNING, //to silence warnings about old warnings.
WARN_WRITTENNOTREAD,
WARN_READNOTWRITTEN,
WARN_NOTREFERENCED,
WARN_NOTREFERENCEDCONST,
WARN_NOTREFERENCEDFIELD,
WARN_CONFLICTINGRETURNS,
WARN_TOOFEWPARAMS,
WARN_TOOMANYPARAMS,
WARN_UNEXPECTEDPUNCT,
WARN_UNINITIALIZED,
WARN_DENORMAL,
WARN_STRINGOFFSET, //works for static/memalloc strings, but fundamentally unsafe on tempstrings/etc, and varies between engine
WARN_OVERFLOW, //compile time overflow or inprecision.
WARN_ASSIGNMENTTOCONSTANT,
WARN_ASSIGNMENTTOCONSTANTFUNC,
WARN_MISSINGRETURNVALUE,
WARN_WRONGRETURNTYPE,
WARN_CORRECTEDRETURNTYPE,
WARN_POINTLESSSTATEMENT,
WARN_MISSINGRETURN,
WARN_DUPLICATEDEFINITION,
WARN_UNDEFNOTDEFINED,
WARN_PRECOMPILERMESSAGE,
WARN_TOOMANYPARAMETERSFORFUNC,
WARN_TOOMANYPARAMETERSVARARGS,
WARN_STRINGTOOLONG,
WARN_BADTARGET,
WARN_BADPRAGMA,
WARN_NOTUTF8,
WARN_HANGINGSLASHR,
WARN_NOTDEFINED,
WARN_NOTCONSTANT,
WARN_SWITCHTYPEMISMATCH,
WARN_CONFLICTINGUNIONMEMBER,
WARN_KEYWORDDISABLED,
WARN_ENUMFLAGS_NOTINTEGER,
WARN_ENUMFLAGS_NOTBINARY,
WARN_CASEINSENSITIVEFRAMEMACRO,
WARN_STALEMACRO,
WARN_DUPLICATEMACRO,
WARN_DUPLICATELABEL,
WARN_ASSIGNMENTINCONDITIONAL,
WARN_MACROINSTRING,
WARN_BADPARAMS,
WARN_IMPLICITCONVERSION,
WARN_EXTRAPRECACHE,
WARN_NOTPRECACHED,
WARN_DEADCODE,
WARN_UNREACHABLECODE,
WARN_NOTSTANDARDBEHAVIOUR,
WARN_DUPLICATEPRECOMPILER,
WARN_IDENTICALPRECOMPILER,
WARN_GMQCC_SPECIFIC, //extension created by gmqcc that conflicts or isn't properly implemented.
WARN_FTE_SPECIFIC, //extension that only FTEQCC will have a clue about.
WARN_EXTENSION_USED, //extension that frikqcc also understands
WARN_IFSTRING_USED,
WARN_IFVECTOR_DISABLED, //if(vector) does if(vector_x) if ifvector is disabled
WARN_LAXCAST, //some errors become this with a compiler flag
WARN_TYPEMISMATCHREDECOPTIONAL,
WARN_UNDESIRABLECONVENTION,
WARN_SAMENAMEASGLOBAL,
WARN_CONSTANTCOMPARISON,
WARN_UNSAFEFUNCTIONRETURNTYPE,
WARN_MISSINGOPTIONAL,
WARN_SYSTEMCRC, //unknown system crc
WARN_SYSTEMCRC2, //legacy/dp system crc
WARN_CONDITIONALTYPEMISMATCH,
WARN_MISSINGMEMBERQUALIFIER,//virtual/static/nonvirtual qualifier is missing
WARN_SELFNOTTHIS, //warned for because 'self' does not have the right type. we convert such references to 'this' instead, which is more usable.
WARN_EVILPREPROCESSOR, //exploited by nexuiz, and generally unsafe.
WARN_UNARYNOTSCOPE, //!foo & bar the ! applies to the result of &. This is unlike C.
WARN_STRICTTYPEMISMATCH, //self.think = T_Damage; both are functions, but the arguments/return types/etc differ.
WARN_MISUSEDAUTOCVAR, //various issues with autocvar definitions.
WARN_IGNORECOMMANDLINE,
WARN_POINTERASSIGNMENT, //&somefloat = 5; disabled for qccx compat sanity.
WARN_COMPATIBILITYHACK, //work around old defs.qc or invalid dpextensions.qc
WARN_REDECLARATIONMISMATCH,
WARN_PARAMWITHNONAME,
ERR_PARSEERRORS, //caused by qcc_pr_parseerror being called.
//these are definatly my fault...
ERR_INTERNAL,
ERR_TOOCOMPLEX,
ERR_BADOPCODE,
ERR_TOOMANYSTATEMENTS,
ERR_TOOMANYSTRINGS,
ERR_BADTARGETSWITCH,
ERR_TOOMANYTYPES,
ERR_TOOMANYPAKFILES,
ERR_PRECOMPILERCONSTANTTOOLONG,
ERR_MACROTOOMANYPARMS,
ERR_TOOMANYFRAMEMACROS,
//limitations, some are imposed by compiler, some arn't.
ERR_TOOMANYGLOBALS,
ERR_TOOMANYGOTOS,
ERR_TOOMANYBREAKS,
ERR_TOOMANYCONTINUES,
ERR_TOOMANYCASES,
ERR_TOOMANYLABELS,
ERR_TOOMANYOPENFILES,
ERR_TOOMANYTOTALPARAMETERS,
//these are probably yours, or qcc being fussy.
ERR_BADEXTENSION,
ERR_BADIMMEDIATETYPE,
ERR_NOOUTPUT,
ERR_NOTAFUNCTION,
ERR_FUNCTIONWITHVARGS,
ERR_BADHEX,
ERR_UNKNOWNPUCTUATION,
ERR_EXPECTED,
ERR_NOTANAME,
ERR_NAMETOOLONG,
ERR_NOFUNC,
ERR_COULDNTOPENFILE,
ERR_NOTFUNCTIONTYPE,
ERR_TOOFEWPARAMS,
ERR_TOOMANYPARAMS,
ERR_CONSTANTNOTDEFINED,
ERR_BADFRAMEMACRO,
ERR_TYPEMISMATCH,
ERR_TYPEMISMATCHREDEC,
ERR_TYPEMISMATCHPARM,
ERR_TYPEMISMATCHARRAYSIZE,
ERR_UNEXPECTEDPUNCTUATION,
ERR_NOTACONSTANT,
ERR_REDECLARATION,
ERR_INITIALISEDLOCALFUNCTION,
ERR_NOTDEFINED,
ERR_ARRAYNEEDSSIZE,
ERR_ARRAYNEEDSBRACES,
ERR_TOOMANYINITIALISERS,
ERR_TYPEINVALIDINSTRUCT,
ERR_NOSHAREDLOCALS,
ERR_TYPEWITHNONAME,
ERR_BADARRAYSIZE,
ERR_NONAME,
ERR_SHAREDINITIALISED,
ERR_UNKNOWNVALUE,
ERR_BADARRAYINDEXTYPE,
ERR_NOVALIDOPCODES,
ERR_MEMBERNOTVALID,
ERR_BADPLUSPLUSOPERATOR,
ERR_BADNOTTYPE,
ERR_BADTYPECAST,
ERR_MULTIPLEDEFAULTS,
ERR_CASENOTIMMEDIATE,
ERR_BADSWITCHTYPE,
ERR_BADLABELNAME,
ERR_NOLABEL,
ERR_THINKTIMETYPEMISMATCH,
ERR_STATETYPEMISMATCH,
ERR_BADBUILTINIMMEDIATE,
ERR_BADPARAMORDER,
ERR_ILLEGALCONTINUES,
ERR_ILLEGALBREAKS,
ERR_ILLEGALCASES,
ERR_NOTANUMBER,
ERR_WRONGSUBTYPE,
ERR_EOF,
ERR_NOPRECOMPILERIF,
ERR_NOENDIF,
ERR_HASHERROR,
ERR_NOTATYPE,
ERR_TOOMANYPACKFILES,
ERR_INVALIDVECTORIMMEDIATE,
ERR_INVALIDSTRINGIMMEDIATE,
ERR_BADCHARACTERCODE,
ERR_BADPARMS,
ERR_WERROR,
WARN_MAX
};
#define FLAG_KILLSDEBUGGERS 1
#define FLAG_ASDEFAULT 2
#define FLAG_SETINGUI 4
#define FLAG_HIDDENINGUI 8
#define FLAG_MIDCOMPILE 16 //option can be changed mid-compile with the special pragma
typedef struct {
pbool *enabled;
char *abbrev;
int optimisationlevel;
int flags; //1: kills debuggers. 2: applied as default.
char *fullname;
char *description;
void *guiinfo;
} optimisations_t;
extern optimisations_t optimisations[];
typedef struct {
pbool *enabled;
int flags; //2 applied as default
char *abbrev;
char *fullname;
char *description;
void *guiinfo;
} compiler_flag_t;
extern compiler_flag_t compiler_flag[];
#define WA_IGNORE 0
#define WA_WARN 1
#define WA_ERROR 2
extern unsigned char qccwarningaction[WARN_MAX];
extern jmp_buf pr_parse_abort; // longjump with this on parse error
extern const char *s_filen; //name of the file we're currently compiling.
extern QCC_string_t s_filed; //name of the file we're currently compiling, as seen by whoever reads the .dat
extern int pr_source_line;
extern char *pr_file_p;
void *QCC_PR_Malloc (int size);
#define OFS_NULL 0
#define OFS_RETURN 1
#define OFS_PARM0 4 // leave 3 ofs for each parm to hold vectors
#define OFS_PARM1 7
#define OFS_PARM2 10
#define OFS_PARM3 13
#define OFS_PARM4 16
#define RESERVED_OFS 28
extern struct QCC_function_s *pr_scope;
extern int pr_error_count, pr_warning_count;
void QCC_PR_NewLine (pbool incomment);
#define GDF_NONE 0
#define GDF_SAVED 1
#define GDF_STATIC 2
#define GDF_CONST 4
#define GDF_STRIP 8 //always stripped, regardless of optimisations. used for class member fields
#define GDF_SILENT 16 //used by the gui, to suppress ALL warnings associated with querying the def.
#define GDF_INLINE 32 //attempt to inline calls to this function
#define GDF_USED 64 //don't strip this, ever.
#define GDF_BASICTYPE 128 //don't care about #merge types not being known correctly.
#define GDF_SCANLOCAL 256 //don't use the locals hash table
QCC_def_t *QCC_PR_GetDef (QCC_type_t *type, const char *name, struct QCC_function_s *scope, pbool allocate, int arraysize, unsigned int flags);
QCC_sref_t QCC_PR_GetSRef (QCC_type_t *type, const char *name, struct QCC_function_s *scope, pbool allocate, int arraysize, unsigned int flags);
void QCC_FreeTemp(QCC_sref_t t);
void QCC_FreeDef(QCC_def_t *def);
char *QCC_PR_CheckCompConstTooltip(char *word, char *outstart, char *outend);
void QCC_PR_PrintDefs (void);
void QCC_PR_SkipToSemicolon (void);
extern char *pr_parm_argcount_name;
#define MAX_EXTRA_PARMS 128
#ifdef MAX_EXTRA_PARMS
extern char pr_parm_names[MAX_PARMS+MAX_EXTRA_PARMS][MAX_NAME];
extern QCC_sref_t extra_parms[MAX_EXTRA_PARMS];
#else
extern char pr_parm_names[MAX_PARMS][MAX_NAME];
#endif
char *QCC_PR_ValueString (etype_t type, void *val);
void QCC_PR_ClearGrabMacros (pbool newfile);
void QCC_ImportProgs(const char *filename);
pbool QCC_PR_CompileFile (char *string, char *filename);
void QCC_PR_ResetErrorScope(void);
extern pbool pr_dumpasm;
extern QCC_def_t def_ret, def_parms[MAX_PARMS];
void QCC_PR_EmitArrayGetFunction(QCC_def_t *defscope, QCC_def_t *thearray, char *arrayname);
void QCC_PR_EmitArraySetFunction(QCC_def_t *defscope, QCC_def_t *thearray, char *arrayname);
void QCC_PR_EmitClassFromFunction(QCC_def_t *defscope, QCC_type_t *basetype);
void QCC_PR_ParseDefs (char *classname, pbool fatal);
QCC_def_t *QCC_PR_DummyDef(QCC_type_t *type, const char *name, QCC_function_t *scope, int arraysize, QCC_def_t *rootsymbol, unsigned int ofs, int referable, unsigned int flags);
void QCC_PR_ParseInitializerDef(QCC_def_t *def, unsigned int flags);
void QCC_PR_FinaliseFunctions(void);
void PostCompile(void);
pbool PreCompile(void);
void QCC_Cleanup(void);
#define FIRST_LOCAL 0//(MAX_REGS)
//=============================================================================
extern char pr_immediate_string[8192];
extern size_t pr_immediate_strlen;
extern QCC_eval_t *qcc_pr_globals;
extern unsigned int numpr_globals;
extern char *strings;
extern int strofs;
extern QCC_statement_t *statements;
extern int numstatements;
extern QCC_function_t *functions;
extern dfunction_t *dfunctions;
extern int numfunctions;
extern QCC_ddef_t *qcc_globals;
extern int numglobaldefs;
extern QCC_def_t *activetemps;
extern QCC_ddef_t *fields;
extern int numfielddefs;
extern QCC_type_t *qcc_typeinfo;
extern int numtypeinfos;
extern int maxtypeinfos;
extern int ForcedCRC;
extern pbool defaultnoref;
extern pbool defaultnosave;
extern pbool defaultstatic;
extern int *qcc_tempofs;
extern int max_temps;
//extern int qcc_functioncalled; //unuse temps if this is true - don't want to reuse the same space.
extern int tempsstart;
extern int numtemps;
extern char compilingrootfile[]; //.src file currently being compiled
typedef char PATHSTRING[MAX_DATA_PATH];
typedef struct
{
PATHSTRING name;
int block;
int used;
int fileline;
const char *filename;
} precache_t;
extern precache_t *precache_sound;
extern int numsounds;
extern precache_t *precache_texture;
extern int numtextures;
extern precache_t *precache_model;
extern int nummodels;
extern precache_t *precache_file;
extern int numfiles;
typedef struct qcc_includechunk_s {
struct qcc_includechunk_s *prev;//chunk it was expanded/included from
const char *currentfilename; //filename it was expended from
int currentlinenumber; //line it was expanded from
char *currentdatapoint;
CompilerConstant_t *cnst; //define we're expanding from
char *datastart; //the start of the expanded data
} qcc_includechunk_t;
extern qcc_includechunk_t *currentchunk;
int QCC_CopyString (char *str);
int QCC_CopyStringLength (char *str, size_t length);
typedef struct qcc_cachedsourcefile_s {
char filename[128];
size_t size;
size_t zhdrofs;
int zcrc;
char *file;
enum{FT_CODE, FT_DATA} type; //quakec source file or not.
struct qcc_cachedsourcefile_s *next;
} qcc_cachedsourcefile_t;
extern qcc_cachedsourcefile_t *qcc_sourcefile;
int WriteSourceFiles(qcc_cachedsourcefile_t *filelist, int h, pbool sourceaswell, pbool legacyembed);
struct pkgctx_s;
struct pkgctx_s *Packager_Create(void (*messagecallback)(void *userctx, char *message), void *userctx);
void Packager_Parse(struct pkgctx_s *ctx, char *scriptname);
void Packager_WriteDataset(struct pkgctx_s *ctx, char *setname);
void Packager_Destroy(struct pkgctx_s *ctx);
#ifdef COMMONINLINES
static bool inline QCC_PR_CheckToken (char *string)
{
if (pr_token_type != tt_punct)
return false;
if (STRCMP (string, pr_token))
return false;
QCC_PR_Lex ();
return true;
}
static bool inline QCC_PR_PeekToken (char *string)
{
if (pr_token_type != tt_punct)
return false;
if (STRCMP (string, pr_token))
return false;
return true;
}
static void inline QCC_PR_Expect (const char *string)
{
if (strcmp (string, pr_token))
QCC_PR_ParseError ("expected %s, found %s",string, pr_token);
QCC_PR_Lex ();
}
#endif
void editbadfile(const char *fname, int line);
char *TypeName(QCC_type_t *type, char *buffer, int buffersize);
void QCC_PR_AddIncludePath(const char *newinc);
void QCC_PR_IncludeChunk (char *data, pbool duplicate, char *filename);
void QCC_PR_CloseProcessor(void);
void QCC_FindBestInclude(char *newfile, char *currentfile, pbool verbose);
pbool QCC_PR_UnInclude(void);
extern void *(*pHash_Get)(hashtable_t *table, const char *name);
extern void *(*pHash_GetNext)(hashtable_t *table, const char *name, void *old);
extern void *(*pHash_Add)(hashtable_t *table, const char *name, void *data, bucket_t *);
extern void (*pHash_RemoveData)(hashtable_t *table, const char *name, void *data);
typedef struct vfile_s
{ //when originally running from a .dat, we load up all the functions and work from those rather than actual files.
//(these get re-written into the resulting .dat)
struct vfile_s *next;
void *fdata;
size_t fsize;
size_t msize;
char name[1];
} vfile_t;
vfile_t *QCC_FindVFile(const char *name);
vfile_t *QCC_AddVFile(const char *name, void *data, size_t size);
void QCC_CatVFile(vfile_t *, const char *fmt, ...);
void QCC_InsertVFile(vfile_t *, size_t pos, const char *fmt, ...);
void *QCC_ReadFile(const char *fname, unsigned char *(*buf_get)(void *ctx, size_t len), void *buf_ctx, size_t *out_size);