quakeforge/tools/qfcc/include/qfcc.h

548 lines
16 KiB
C

/* Copyright (C) 1996-1997 Id Software, Inc.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
See file, 'COPYING', for details.
*/
#include "cmdlib.h"
#include <stdio.h>
#include <setjmp.h>
#include "QF/pr_comp.h"
/*
TODO:
o "stopped at 10 errors"
o other pointer types for models and clients?
o compact string heap?
o allways initialize all variables to something safe
o the def->type->type arrangement is really silly.
o return type checking
o parm count type checking
o immediate overflow checking
o 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 allready 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
-------
o The && and || operators DO NOT EARLY OUT like C!
o Don't confuse single quoted vectors with double quoted strings
o The function declaration syntax takes a little getting used to.
o Don't forget the ; after the trailing brace of a function
initialization.
o Don't forget the "local" before defining local variables.
o There are no ++ / -- operators, or operate/assign operators.
*/
//=============================================================================
// offsets are allways multiplied by 4 before using
typedef int gofs_t; // offset in global data block
typedef struct function_s function_t;
#define MAX_PARMS 8
typedef struct type_s
{
etype_t type;
struct def_s *def; // a def that points to this type
struct type_s *next;
// function types are more complex
struct type_s *aux_type; // return type or field type
int num_parms; // -1 = variable args
struct type_s *parm_types[MAX_PARMS]; // only [num_parms] allocated
} type_t;
typedef struct statref_s {
struct statref_s *next;
dstatement_t *statement;
int field; // a, b, c (0, 1, 2)
} statref_t;
typedef struct def_s {
type_t *type;
const char *name;
int num_locals;
gofs_t ofs;
int initialized;// 1 when a declaration included "= immediate"
statref_t *refs; // for relocations
struct def_s *def_next; // for writing out the global defs list
struct def_s *next; // general purpose linking
struct def_s *scope_next; // to facilitate hash table removal
struct def_s *scope; // function the var was defined in, or NULL
} def_t;
//============================================================================
// pr_loc.h -- program local defs
#define MAX_ERRORS 10
#define MAX_NAME 64 // chars long
#define MAX_REGS 65536
//=============================================================================
typedef union eval_s
{
string_t string;
float _float;
float vector[3];
func_t function;
int _int;
union eval_s *ptr;
} eval_t;
extern int type_size[8];
extern def_t *def_for_type[8];
extern type_t type_void;
extern type_t type_string;
extern type_t type_float;
extern type_t type_vector;
extern type_t type_entity;
extern type_t type_field;
extern type_t type_function;
extern type_t type_pointer;
extern type_t type_floatfield;
extern type_t type_quaternion;
extern def_t def_void;
extern def_t def_string;
extern def_t def_float;
extern def_t def_vector;
extern def_t def_entity;
extern def_t def_field;
extern def_t def_function;
extern def_t def_pointer;
extern def_t def_quaternion;
struct function_s
{
struct function_s *next;
dfunction_t *dfunc;
int builtin; // if non 0, call an internal function
int code; // first statement
const char *file; // source file with definition
int file_line;
struct def_s *def;
int parm_ofs[MAX_PARMS]; // allways contiguous, right?
};
function_t *pr_functions;
//
// output generated by prog parsing
//
typedef struct
{
char *memory;
int max_memory;
int current_memory;
type_t *types;
def_t def_head; // unused head of linked list
def_t *def_tail; // add new defs after this and move it
def_t *search; // search chain through defs
int size_fields;
} pr_info_t;
extern pr_info_t pr;
typedef struct
{
const char *name;
const char *opname;
pr_opcode_e opcode;
int priority;
qboolean right_associative;
def_t *type_a, *type_b, *type_c;
int min_version;
} opcode_t;
extern opcode_t *op_done;
extern opcode_t *op_return;
extern opcode_t *op_if;
extern opcode_t *op_ifnot;
extern opcode_t *op_state;
extern opcode_t *op_goto;
statref_t *PR_NewStatref (dstatement_t *st, int field);
void PR_AddStatementRef (def_t *def, dstatement_t *st, int field);
def_t *PR_Statement (opcode_t *op, def_t *var_a, def_t *var_b);
opcode_t *PR_Opcode_Find (const char *name, int priority,
def_t *var_a, def_t *var_b, def_t *var_c);
opcode_t *PR_Opcode (short opcode);
void PR_Opcode_Init (void);
//============================================================================
#include "expr.h"
extern qboolean pr_dumpasm;
extern def_t *pr_global_defs[MAX_REGS]; // 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[2048];
extern int pr_token_len;
extern token_type_t pr_token_type;
extern type_t *pr_immediate_type;
extern eval_t pr_immediate;
void PR_PrintStatement (dstatement_t *s);
void PR_Lex (void);
void PR_LexString (void);
// reads the next token into pr_token and classifies its type
type_t *PR_ParseType (void);
char *PR_ParseName (void);
def_t *PR_ParseImmediate (def_t *def);
def_t *PR_ReuseConstant (expr_t *expr, def_t *def);
qboolean PR_Check (token_type_t type, const char *string);
void PR_Expect (token_type_t type, const char *string);
void PR_ParseError (const char *error, ...)__attribute__((format(printf, 1,2)));
extern jmp_buf pr_parse_abort; // longjump with this on parse error
extern int pr_source_line;
extern char *pr_file_p;
void *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 def_t *pr_scope;
extern int pr_error_count;
void PR_NewLine (void);
def_t *PR_GetDef (type_t *type, const char *name, def_t *scope,
int *allocate);
def_t *PR_NewDef (type_t *type, const char *name, def_t *scope);
int PR_NewLocation (type_t *type);
void PR_FreeLocation (def_t *def);
def_t *PR_GetTempDef (type_t *type, def_t *scope);
void PR_FreeTempDefs ();
void PR_ResetTempDefs ();
void PR_FlushScope (def_t *scope);
void PR_PrintDefs (void);
void PR_PrintFunction (def_t *def);
void PR_SkipToSemicolon (void);
extern char pr_parm_names[MAX_PARMS][MAX_NAME];
extern qboolean pr_trace;
#define G_FLOAT(o) (pr_globals[o])
#define G_INT(o) (*(int *)&pr_globals[o])
#define G_VECTOR(o) (&pr_globals[o])
#define G_STRING(o) (strings + *(string_t *)&pr_globals[o])
#define G_FUNCTION(o) (*(func_t *)&pr_globals[o])
char *PR_ValueString (etype_t type, void *val);
void PR_ClearGrabMacros (void);
qboolean PR_CompileFile (char *string, const char *filename);
extern qboolean pr_dumpasm;
extern string_t s_file; // filename for function definition
extern def_t def_ret, def_parms[MAX_PARMS];
//=============================================================================
#define MAX_STRINGS 500000
#define MAX_GLOBALS 65536
#define MAX_FIELDS 1024
#define MAX_STATEMENTS 131072
#define MAX_FUNCTIONS 8192
#define MAX_SOUNDS 1024
#define MAX_MODELS 1024
#define MAX_FILES 1024
#define MAX_DATA_PATH 64
extern char strings[MAX_STRINGS];
extern int strofs;
extern dstatement_t statements[MAX_STATEMENTS];
extern int numstatements;
extern int statement_linenums[MAX_STATEMENTS];
extern dfunction_t functions[MAX_FUNCTIONS];
extern int numfunctions;
extern float pr_globals[MAX_REGS];
extern int numpr_globals;
extern char pr_immediate_string[2048];
extern char precache_sounds[MAX_SOUNDS][MAX_DATA_PATH];
extern int precache_sounds_block[MAX_SOUNDS];
extern int numsounds;
extern char precache_models[MAX_MODELS][MAX_DATA_PATH];
extern int precache_models_block[MAX_SOUNDS];
extern int nummodels;
extern char precache_files[MAX_FILES][MAX_DATA_PATH];
extern int precache_files_block[MAX_SOUNDS];
extern int numfiles;
int CopyString (const char *str);
int ReuseString (const char *str);
typedef struct {
int cow; // copy on write for constants
int version; // maximum progs version to support (eg, 6 for id)
int warn_error; // treat warnings as errors
int quiet; // not so much chatter
} options_t;
extern options_t options;