1 .\" Process with groff -man -Tascii file.3
2 .TH GMQCC 1 2012-07-12 "" "gmqcc Manual"
4 gmqcc \- A Quake C compiler built from the NIH realm of sarcastic wit
7 [\fIOPTIONS\fR] [\fIfiles...\fR]
9 Traditionally, a QC compiler reads the file \fIprogs.src\fR which
10 in its first line contains the output filename, and the rest is a
11 list of QC source files that are to be compiled in order.
12 \fBgmqcc\fR optionally takes options to specify the output and
13 input files on the commandline, and also accepts assembly files.
15 \fBgmqcc\fR mostly tries to mimic gcc's commandline handling, though
16 there are also traditional long-options available.
19 Show a usage message and exit.
22 Turn on some compiler debugging mechanisms.
25 Turn on compiler mem-check. (Shows allocations and checks for leaks.)
27 .BI "-o, --output=" filename
28 Specify the output filename. Defaults to progs.dat. This will overwrite
29 the output file listed in a \fIprogs.src\fR file in case such a file is used.
32 Specify the optimization level
35 Highest optimization level
37 Default optimization level
39 Minimal optimization level
41 Disable optimization entirely
44 .BI "-O" name "\fR, " "" -Ono- name
45 Enable or disable a specific optimization. Note that these options
46 must be used after setting the optimization level, otherwise they'll
50 List all possible optimizations and the optimization level they're
54 Be less verbose. In particular removes the messages about which files
55 are being processed, and which compilation mode is being used, and
56 some others. Warnings and errors will of course still be displayed.
58 .BI -W warning "\fR, " "" -Wno- warning
59 Enable or disable a warning.
62 Enable almost all warnings. Overrides preceding -W parameters.
64 The following warnings will \fBnot\fR be anbled:
67 -Wuninitialized-global
71 .BR -Werror ", " -Wno-error
72 Controls whether or not all warnings should be treated as errors.
74 .BI -Werror- warning "\fR, " "" -Wno-error- warning
75 Controls whether a specific warning should be an error.
78 List all possible warn flags.
80 .BI -f flag "\fR, " "" -fno- flag
81 Enable or disable a specific compile flag. See the list of flags
85 List all possible compile flags.
88 Disables colored output
91 Use an ini file to read all the -O, -W and -f flag from. See the
92 CONFIG section about the file format.
95 Redirects standard output to a \fIfile\fR
98 Redirects standard error to a \fIfile\fR
101 Use the specified standard for parsing QC code. The following standards
103 .IR gmqcc , qcc , fteqcc
104 Selecting a standard also implies some -f options and behaves as if
105 those options have been written right after the -std option, meaning
106 if you changed them before the -std option, you're now overwriting
109 .BR -std=gmqcc " includes:"
112 -fadjust-vector-fields
116 -finitialized-nonconstants
117 -ftranslatable-strings
118 -f\fIno-\fRfalse-empty-strings
119 -Winvalid-parameter-count
120 -Wmissing-returnvalues
121 -fcorrect-ternary (cannot be turned off)
125 .BR -std=qcc " includes:"
128 -fassign-function-types
129 -f\fIno-\fRadjust-vector-fields
133 .BR -std=fteqcc " includes:"
137 -ftranslatable-strings
138 -fassign-function-types
140 -f\fIno-\fRadjust-vector-fields
141 -f\fIno-\fRcorrect-ternary
146 DEBUG OPTION. Print the code's intermediate representation before the
147 optimization and finalization passes to stdout before generating the
151 DEBUG OPTION. Print the code's intermediate representation after the
152 optimization and finalization passes to stdout before generating the
153 binary. The instructions will be enumerated, and values will contain a
158 Generate a warning about variables which are declared but never used.
159 This can be avoided by adding the \fInoref\fR keyword in front of the
160 variable declaration. Additionally a complete section of unreferenced
161 variables can be opened using \fI#pragma noref 1\fR, and closed via
162 \fI#pragma noref 0\fR.
164 .B -Wused-uninitialized
165 Generate a warning if it is possible that a variable can be used
166 without prior initialization. Note that this warning is not
167 necessarily reliable if the initialization happens only under certain
168 conditions. The other way is \fInot\fR possible: that the warning is
169 \fInot\fR generated when uninitialized use \fIis possible\fR.
171 .B -Wunknown-control-sequence
172 Generate an error when an unrecognized control sequence in a string is
173 used. Meaning: when there's a character after a backslash in a string
174 which has no known meaning.
177 Warn when using special extensions which are not part of the selected
180 .B -Wfield-redeclared
181 Generally QC compilers ignore redeclaration of fields. Here you can
182 optionally enable a warning.
184 .B -Wmissing-return-values
185 Functions which aren't of type \fIvoid\fR will warn if it possible to
186 reach the end without returning an actual value.
188 .B -Winvalid-parameter-count
189 Warn about a function call with an invalid number of parameters.
192 Warn when a locally declared variable shadows variable.
195 Warn when the initialization of a local variable turns the variable
196 into a constant. This is default behaviour unless
197 \fI-finitialized-nonconstants\fR is used.
200 There are only 2 known global variables of type void: end_sys_globals
201 and end_sys_fields. Any other void-variable will warn.
203 .B -Wimplicit-function-pointer
204 A global function which is not declared with the \fIvar\fR keyword is
205 expected to have an implementing body, or be a builtin. If neither is
206 the case, it implicitly becomes a function pointer, and a warning is
209 .B -Wvariadic-function
210 Currently there's no way for an in QC implemented function to access
211 variadic parameters. If a function with variadic parameters has an
212 implementing body, a warning will be generated.
215 Generate warnings about \fI$frame\fR commands, for instance about
216 duplicate frame definitions.
218 .B -Weffectless-statement
219 Warn about statements which have no effect. Any expression which does
220 not call a function or assigns a variable.
223 The \fIend_sys_fields\fR variable is supposed to be a global variable
224 of type \fIvoid\fR. It is also recognized as a \fIfield\fR but this
225 will generate a warning.
227 .B -Wassign-function-types
228 Warn when assigning to a function pointer with an unmatching
229 signature. This usually happens in cases like assigning the null
230 function to an entity's .think function pointer.
233 Enable warnings coming from the preprocessor. Like duplicate macro
234 declarations. This warning triggers when there's a problem with the
235 way the preprocessor has been used, it will \fBnot\fR affect warnings
236 generated with the '#warning' directive. See -Wcpp.
239 Show warnings created using the preprocessor's '#warning' directive.
242 Warn if there's a preprocessor \fI#if\fR spanning across several
245 .B -Wdouble-declaration
246 Warn about multiple declarations of globals. This seems pretty common
247 in QC code so you probably do not want this unless you want to clean
251 The combination of \fIconst\fR and \fIvar\fR is not illegal, however
252 different compilers may handle them differently. We were told, the
253 intention is to create a function-pointer which is not assignable.
254 This is exactly how we interpret it. However for this interpretation
255 the \fIvar\fR keyword is considered superfluous (and philosophically
256 wrong), so it is possible to generate a warning about this.
258 .B -Wmultibyte-character
259 Warn about multibyte character constants, they do not work right now.
261 .B -Wternary-precedence
262 Warn if a ternary expression which contains a comma operator is used
263 without enclosing parenthesis, since this is most likely not what you
264 actually want. We recommend the \fI-fcorrect-ternary\fR option.
267 Warn when encountering an unrecognized \fI#pragma\fR line.
269 .B -Wunreachable-code
270 Warn about unreachable code. That is: code after a return statement,
271 or code after a call to a function marked as 'noreturn'.
274 Enable some warnings added in order to help debugging in the compiler.
276 .B -Wunknown-attribute
277 Warn on an unknown attribute. The warning will inlclude only the first
278 token inside the enclosing attribute-brackets. This may change when
279 the actual attribute syntax is better defined.
282 Warn when using reserved names such as 'nil'.
284 .B -Wuninitialized-constant
285 Warn about global constants (using the 'const' keyword) with no
288 .B -Wuninitialized-global
289 Warn about global variables with no initializing value. This is off by
290 default, and is added mostly to help find null-values which are
291 supposed to be replaced by the untyped 'nil' constant.
293 .B -Wdifferent-qualifiers
294 Warn when a variables is redeclared with a different qualifier. For
295 example when redeclaring a variable as \'var\' which was previously
298 .B -Wdifferent-attributes
299 Similar to the above but for attributes like "[[noreturn]]".
302 Warn when a function is marked with the attribute
303 "[[deprecated]]". This flag enables a warning on calls to functions
307 Warn about possible mistakes caused by missing or wrong parenthesis,
308 like an assignment in an 'if' condition when there's no additional set
309 of parens around the assignment.
312 .B -fdarkplaces-string-table-bug
313 Add some additional characters to the string table in order to
314 compensate for a wrong boundcheck in some specific version of the
317 .B -fadjust-vector-fields
318 When assigning to field pointers of type \fI.vector\fR the common
319 behaviour in compilers like \fIfteqcc\fR is to only assign the
320 x-component of the pointer. This means that you can use the vector as
321 such, but you cannot use its y and z components directly. This flag
322 fixes this behaviour. Before using it make sure your code does not
323 depend on the buggy behaviour.
326 Enable a partially fteqcc-compatible preprocessor. It supports all the
327 features used in the Xonotic codebase. If you need more, write a
331 Enable some predefined macros. This only works in combination with
332 \'-fftepp' and is currently not included by '-std=fteqcc'. The
333 following macros will be added:
346 Note that fteqcc also defines __NULL__ which is not implemented yet.
347 (See -funtyped-nil about gmqcc's alternative to __NULL__).
350 Allow switch cases to use non constant variables.
353 Perform early out in logical AND and OR expressions. The final result
354 will be either a 0 or a 1, see the next flag for more possibilities.
357 In many languages, logical expressions perform early out in a special
358 way: If the left operand of an AND yeilds true, or the one of an OR
359 yields false, the complete expression evaluates to the right side.
360 Thus \fItrue && 5\fI evaluates to 5 rather than 1.
362 .B -ftranslatable-strings
363 Enable the underscore intrinsic: Using \fI_("A string constant")\fR
364 will cause the string immediate to get a name with a "dotranslate_"
365 prefix. The darkplaces engine recognizes these and translates them in
366 a way similar to how gettext works.
368 .B -finitialized-nonconstants
369 Don't implicitly convert initialized variables to constants. With this
370 flag, the \fIconst\fR keyword is required to make a constant.
372 .B -fassign-function-types
373 If this flag is not set, (and it is set by default in the qcc and
374 fteqcc standards), assigning function pointers of mismatching
375 signatures will result in an error rather than a warning.
378 Produce a linenumber file along with the output .dat file.
381 Use C's operator precedence for ternary expressions. Unless your code
382 depends on fteqcc-compatible behaviour, you'll want to use thi
385 .B -fsingle-vector-defs
386 Normally vectors generate 4 defs, once for the vector, and once for
387 its components with _x, _y, _z suffixes. This option
388 prevents components from being listed.
391 Most QC compilers translate if(a_vector) directly as an IF on the
392 vector, which means only the x-component is checked. This causes
393 vectors to be cast to actual booleans via a NOT_V and, if necessary, a
397 if (a_vector) // becomes
400 a = a_vector && a_float // becomes
401 a = !!a_vector && a_float
405 .B -ftrue-empty-strings
406 An empty string is considered to be true everywhere. The NOT_S
407 instruction usually considers an empty string to be false, this option
408 effectively causes the unary not in strings to use NOT_F instead.
410 .B -ffalse-empty-strings
411 An empty string is considered to be false everywhere. This means loops
412 and if statements which depend on a string will perform a NOT_S
413 instruction on the string before using it.
416 Enable utf8 characters. This allows utf-8 encoded character constants,
417 and escape sequence codepoints in the valid utf-8 range. Effectively
418 enabling escape sequences like '\\{x2211}'.
421 When a warning is treated as an error, and this option is set (which
422 it is by default), it is like any other error and will cause
423 compilation to stop. When disabling this flag by using
424 \-fno-bail-on-werror, compilation will continue until the end, but no
425 output is generated. Instead the first such error message's context is
429 Allow loops to be labeled, and allow 'break' and 'continue' to take an
430 optional label to decide which loop to actually jump out of or
435 for :outer (i = 0; i < n; ++i) {
446 Adds a global named 'nil' which is of no type and can be assigned to
447 anything. No typechecking will be performed on assignments. Assigning
448 to it is forbidden, using it in any other kind of expression is also
451 Note that this is different from fteqcc's __NULL__: In fteqcc,
452 __NULL__ maps to the integer written as '0i'. It's can be assigned to
453 function pointers and integers, but it'll error about invalid
454 instructions when assigning it to floats without enabling the FTE
455 instruction set. There's also a bug which allows it to be assigned to
456 vectors, for which the source will be the global at offset 0, meaning
457 the vector's y and z components will contain the OFS_RETURN x and y
460 In that gmqcc the nil global is an actual global filled with zeroes,
461 and can be assigned to anything including fields, vectors or function
462 pointers, and they end up becoming zeroed.
465 Various effects, usually to weaken some conditions.
467 .IP "with -funtyped-nil"
468 Allow local variables named 'nil'. (This will not allow declaring a
469 global of that name.)
473 Some general peephole optimizations. For instance the code `a = b + c`
474 typically generates 2 instructions, an ADD and a STORE. This
475 optimization removes the STORE and lets the ADD write directly into A.
478 Tail recursive function calls will be turned into loops to avoid the
479 overhead of the CALL and RETURN instructions.
482 Make all functions which use neither local arrays nor have locals
483 which are seen as possibly uninitialized use the same local section.
484 This should be pretty safe compared to other compilers which do not
485 check for uninitialized values properly. The problem is that there's
486 QC code out there which really doesn't initialize some values. This is
487 fine as long as this kind of optimization isn't used, but also, only
488 as long as the functions cannot be called in a recursive manner. Since
489 it's hard to know whether or not an array is actually fully
490 initialized, especially when initializing it via a loop, we assume
491 functions with arrays to be too dangerous for this optimization.
494 This promotes locally declared variables to "temps". Meaning when a
495 temporary result of an operation has to be stored somewhere, a local
496 variable which is not 'alive' at that point can be used to keep the
497 result. This can reduce the size of the global section.
498 This will not have declared variables overlap, even if it was
502 Causes temporary values which do not need to be backed up on a CALL to
503 not be stored in the function's locals-area. With this, a CALL to a
504 function may need to back up fewer values and thus execute faster.
506 .B -Ostrip-constant-names
507 Don't generate defs for immediate values or even declared constants.
508 Meaning variables which are implicitly constant or qualified as such
509 using the 'const' keyword.
512 Aggressively reuse strings in the string section. When a string should
513 be added which is the trailing substring of an already existing
514 string, the existing string's tail will be returned instead of the new
517 For example the following code will only generate 1 string:
521 print("Hell you!\\n");
522 print("you!\\n"); // trailing substring of "Hello you!\\n"
525 There's however one limitation. Strings are still processed in order,
526 so if the above print statements were reversed, this optimization
530 By default, all parameters of a CALL are copied into the
531 parameter-globals right before the CALL instructions. This is the
532 easiest and safest way to translate calls, but also adds a lot of
533 unnecessary copying and unnecessary temporary values. This
534 optimization makes operations which are used as a parameter evaluate
535 directly into the parameter-global if that is possible, which is when
536 there's no other CALL instruction in between.
539 Usually an empty RETURN instruction is added to the end of a void
540 typed function. However, additionally after every function a DONE
541 instruction is added for several reasons. (For example the qcvm's
542 disassemble switch uses it to know when the function ends.). This
543 optimization replaces that last RETURN with DONE rather than adding
544 the DONE additionally.
546 .B -Ovector-components
547 Because traditional QC code doesn't allow you to access individual
548 vector components of a computed vector without storing it in a local
549 first, sometimes people multiply it by a constant like '0 1 0' to get,
550 in this case, the y component of a vector. This optimization will turn
551 such a multiplication into a direct component access. If the factor is
552 anything other than 1, a float-multiplication will be added, which is
553 still faster than a vector multiplication.
555 The configuration file is similar to regular .ini files. Comments
556 start with hashtags or semicolons, sections are written in square
557 brackets and in each section there can be arbitrary many key-value
560 There are 3 sections currently:
561 .IR flags ", " warnings ", and " optimizations .
562 They contain a list of boolean values of the form `VARNAME = true` or
563 `VARNAME = false`. The variable names are the same as for the
564 corresponding -W, -f or -O flag written with only capital letters and
565 dashes replaced by underscores.
570 # a GMQCC configuration file
573 ADJUST_VECTOR_FIELDS = false
577 UNUSED_VARIABLE = false
578 USED_UNINITIALIZED = true
582 TAIL_RECURSION = true
586 Currently the '-fftepp-predefs' flag is not included by '-std=fteqcc',
587 partially because it is not entirely conformant to fteqcc.
590 Please report bugs on <http://github.com/graphitemaster/gmqcc/issues>,
591 or see <http://graphitemaster.github.com/gmqcc> on how to contact us.
595 A documented example for a gmqcc.ini file.
599 See <http://graphitemaster.github.com/gmqcc>.