mirror of
https://github.com/DarkPlacesEngine/gmqcc.git
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732 lines
23 KiB
Text
732 lines
23 KiB
Text
#This configuration file is similar to a regular .ini file. Comments start
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#with hashtags or semicolons, sections are written in square brackets and
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#in each section there can be arbitrary many key-value pairs.
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#There are 3 sections currently: ‘flags’, ‘warnings’, ‘optimizations’.
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#They contain a list of boolean values of the form ‘VARNAME = true’ or
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#‘VARNAME = false’. The variable names are the same as for the corre‐
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#sponding -W, -f or -O flag written with only capital letters and dashes
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#replaced by underscores.
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[flags]
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#Add some additional characters to the string table in order to
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#compensate for a wrong boundcheck in some specific version of the
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#darkplaces engine.
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DARKPLACES_STRING_TABLE_BUG = true
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#When assigning to field pointers of type .vector the common be‐
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#haviour in compilers like fteqcc is to only assign the x-compo‐
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#nent of the pointer. This means that you can use the vector as
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#such, but you cannot use its y and z components directly. This
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#flag fixes this behaviour. Before using it make sure your code
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#does not depend on the buggy behaviour.
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ADJUST_VECTOR_FIELDS = true
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#Enable a partially fteqcc-compatible preprocessor. It supports
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#all the features used in the Xonotic codebase. If you need more,
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#write a ticket.
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FTEPP = true
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#Enable some predefined macros. This only works in combination
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#with '-fftepp' and is currently not included by '-std=fteqcc'.
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#The following macros will be added:
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#
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# __LINE__
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# __FILE__
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# __COUNTER__
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# __COUNTER_LAST__
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# __RANDOM__
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# __RANDOM_LAST__
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# __DATE__
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# __TIME__
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# __FUNC__
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#
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#Note that __FUNC__ is not actually a preprocessor macro, but is
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#recognized by the parser even with the preprocessor disabled.
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#
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#Note that fteqcc also defines __NULL__ which becomes the first
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#global. Assigning it to a vector does not yield the same result
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#as in gmqcc where __NULL__ is defined to nil (See -funtyped-nil
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#), which will cause the vector to be zero in all components. With
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#fteqcc only the first component will be 0, while the other two
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#will become the first to of the global return value. This behav‐
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#ior is odd and relying on it should be discouraged, and thus is
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#not supported by gmqcc.
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FTEPP_PREDEFS = false
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#Enable math constant definitions. This only works in combination
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#with '-fftepp' and is currently not included by '-std=fteqcc'.
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#The following macros will be added:
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#
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# M_E
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# M_LOG2E
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# M_LOG10E
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# M_LN2
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# M_LN10
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# M_PI
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# M_PI_2
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# M_PI_4
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# M_1_PI
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# M_2_PI
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# M_2_SQRTPI
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# M_SQRT2
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# M_SQRT1_2
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# M_TAU
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FTEPP_MATHDEFS = false
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#Enable indirect macro expansion. This only works in combination
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#with '-fftepp' and is currently not included by '-std=fteqcc'.
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#Enabling this behavior will allow the preprocessor to operate more
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#like the standard C preprocessor in that it will allow arguments
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#of macros which are macro-expanded to be substituted into the
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#definition of the macro. As an example:
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#
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# #define STR1(x) #x
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# #define STR2(x) STR1(x)
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# #define THE_ANSWER 42
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# #define THE_ANSWER_STR STR2(THE_ANSWER) /* "42" */
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#
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#With this enabled, an expansion of THE_ANSWER_STR will yield
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#the string "42". With this disabled an expansion of THE_ANSWER_STR
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#will yield "THE_ANSWER"
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FTEPP_INDIRECT_EXPANSION = false
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#Allow switch cases to use non constant variables.
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RELAXED_SWITCH = true
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#Perform early out in logical AND and OR expressions. The final
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#result will be either a 0 or a 1, see the next flag for more pos‐
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#sibilities.
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SHORT_LOGIC = true
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#In many languages, logical expressions perform early out in a
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#special way: If the left operand of an AND yeilds true, or the
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#one of an OR yields false, the complete expression evaluates to
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#the right side. Thus ‘true && 5’ evaluates to 5 rather than 1.
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PERL_LOGIC = false
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#Enable the underscore intrinsic: Using ‘_("A string constant")’
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#will cause the string immediate to get a name with a "dotrans‐
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#late_" prefix. The darkplaces engine recognizes these and trans‐
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#lates them in a way similar to how gettext works.
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TRANSLATABLE_STRINGS = true
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#Don't implicitly convert initialized variables to constants. With
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#this flag, the const keyword is required to make a constant.
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INITIALIZED_NONCONSTANTS = false
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#If this flag is not set, (and it is set by default in the qcc and
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#fteqcc standards), assigning function pointers of mismatching
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#signatures will result in an error rather than a warning.
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ASSIGN_FUNCTION_TYPES = true
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#Produce a linenumber file along with the output .dat file.
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LNO = false
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#Use C's operator precedence for ternary expressions. Unless your
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#code depends on fteqcc-compatible behaviour, you'll want to use
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#this option.
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CORRECT_TERNARY = true
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#Normally vectors generate 4 defs, once for the vector, and once
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#for its components with _x, _y, _z suffixes. This option prevents
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#components from being listed.
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SINGLE_VECTOR_DEFS = true
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#Most QC compilers translate ‘if(a_vector)’ directly as an IF on
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#the vector, which means only the x-component is checked. This
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#option causes vectors to be cast to actual booleans via a NOT_V
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#and, if necessary, a NOT_F chained to it.
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#
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# if (a_vector) // becomes
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# if not(!a_vector)
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# // likewise
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# a = a_vector && a_float // becomes
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# a = !!a_vector && a_float
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CORRECT_LOGIC = true
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#An empty string is considered to be true everywhere. The NOT_S
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#instruction usually considers an empty string to be false, this
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#option effectively causes the unary not in strings to use NOT_F
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#instead.
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TRUE_EMPTY_STRINGS = false
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#An empty string is considered to be false everywhere. This means
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#loops and if statements which depend on a string will perform a
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#NOT_S instruction on the string before using it.
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FALSE_EMPTY_STRINGS = true
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#Enable utf8 characters. This allows utf-8 encoded character con‐
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#stants, and escape sequence codepoints in the valid utf-8 range.
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#Effectively enabling escape sequences like '\{x2211}'.
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UTF8 = true
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#When a warning is treated as an error, and this option is set
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#(which it is by default), it is like any other error and will
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#cause compilation to stop. When disabling this flag by using
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#-fno-bail-on-werror, compilation will continue until the end, but
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#no output is generated. Instead the first such error message's
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#context is shown.
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BAIL_ON_WERROR = false
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#Allow loops to be labeled, and allow 'break' and 'continue' to
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#take an optional label to decide which loop to actually jump out
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#of or continue.
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#
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# for :outer (i = 0; i < n; ++i) {
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# while (inner) {
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# ...;
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# if (something)
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# continue outer;
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# }
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# }
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LOOP_LABELS = true
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#Adds a global named 'nil' which is of no type and can be assigned
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#to anything. No typechecking will be performed on assignments.
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#Assigning to it is forbidden, using it in any other kind of
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#expression is also not allowed.
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#
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#Note that this is different from fteqcc's __NULL__: In fteqcc,
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#__NULL__ maps to the integer written as '0i'. It's can be
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#assigned to function pointers and integers, but it'll error about
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#invalid instructions when assigning it to floats without enabling
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#the FTE instruction set. There's also a bug which allows it to be
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#assigned to vectors, for which the source will be the global at
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#offset 0, meaning the vector's y and z components will contain
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#the OFS_RETURN x and y components.#
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#
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#In that gmqcc the nil global is an actual global filled with
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#zeroes, and can be assigned to anything including fields, vectors
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#or function pointers, and they end up becoming zeroed.
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UNTYPED_NIL = true
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#Various effects, usually to weaken some conditions.
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# with -funtyped-nil
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# Allow local variables named ‘nil’. (This will not
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# allow declaring a global of that name.)
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PERMISSIVE = false
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#Allow variadic parameters to be accessed by QC code. This can be
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#achieved via the '...' function, which takes a parameter index
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#and a typename.
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#
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#Example:
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#
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# void vafunc(string...count) {
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# float i;
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# for (i = 0; i < count; ++i)
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# print(...(i, string), "\n");
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# }
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VARIADIC_ARGS = true
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#Most Quake VMs, including the one from FTEQW or up till recently
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#Darkplaces, do not cope well with vector instructions with over‐
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#lapping input and output. This option will avoid producing such
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#code.
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LEGACY_VECTOR_MATHS = false
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#Usually builtin-numbers are just immediate constants. With this
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#flag expressions can be used, as long as they are compile-time
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#constant.
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#
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#Example:
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#
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# void printA() = #1; // the usual way
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# void printB() = #2-1; // with a constant expression
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EXPRESSIONS_FOR_BUILTINS = true
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#Enabiling this option will allow assigning values or expressions
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#to the return keyword as if it were a local variable of the same
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#type as the function's signature's return type.
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#
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#Example:
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#
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# float bar() { return 1024; }
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# float fun() {
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# return = bar();
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# return; // returns value of bar (this can be omitted)
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# }
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RETURN_ASSIGNMENTS = true
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#When passing on varargs to a different functions, this turns some
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#static error cases into warnings. Like when the caller's varargs
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#are restricted to a different type than the callee's parameter.
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#Or a list of unrestricted varargs is passed into restricted
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#varargs.
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UNSAFE_VARARGS = false
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#Always use STORE_F, LOAD_F, STOREP_F when accessing scalar variables.
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#This is somewhat incorrect assembly instruction use, but in all engines
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#they do exactly the same. This makes disassembly output harder to read,
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#breaks decompilers, but causes the output file to be better compressible.
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TYPELESS_STORES = false
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#In commutative instructions, always put the lower-numbered operand first.
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#This shaves off 1 byte of entropy from all these instructions, reducing
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#compressed size of the output file.
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SORT_OPERANDS = false
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#Emulate OP_STATE operations in code rather than using the instruction.
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#The desired fps can be set via -state-fps=NUM, defaults to 10.
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EMULATE_STATE = false
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#Turn on arithmetic exception tests in the compiler. In constant expressions
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#which trigger exceptions like division by zero, overflow, underflow, etc,
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#the following flag will produce diagnostics for what triggered that
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#exception.
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ARITHMETIC_EXCEPTIONS = false
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#Split vector-literals which are only used dirctly as function parameters
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#into 3 floats stored separately to reduce the number of globals at the
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#expense of additional instructions.
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SPLIT_VECTOR_PARAMETERS = false
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[warnings]
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#Generate a warning about variables which are declared but never
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#used. This can be avoided by adding the ‘noref’ keyword in front
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#of the variable declaration. Additionally a complete section of
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#unreferenced variables can be opened using ‘#pragma noref 1’ and
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#closed via ‘#pragma noref 0’.
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UNUSED_VARIABLE = false
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#Generate a warning if it is possible that a variable can be used
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#without prior initialization. Note that this warning is not nec‐
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#essarily reliable if the initialization happens only under cer‐
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#tain conditions. The other way is not possible: that the warning
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#is not generated when uninitialized use is possible.
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USED_UNINITIALIZED = false
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#Generate an error when an unrecognized control sequence in a
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#string is used. Meaning: when there's a character after a back‐
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#slash in a string which has no known meaning.
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UNKNOWN_CONTROL_SEQUENCE = false
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#Warn when using special extensions which are not part of the
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#selected standard.
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EXTENSIONS = false
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#Generally QC compilers ignore redeclaration of fields. Here you
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#can optionally enable a warning.
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FIELD_REDECLARED = false
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#Functions which aren't of type void will warn if it possible to
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#reach the end without returning an actual value.
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MISSING_RETURN_VALUES = false
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#Warn about a function call with an invalid number of parameters.
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INVALID_PARAMETER_COUNT = false
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#Warn when a locally declared variable shadows variable.
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LOCAL_SHADOWS = false
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#Warn when the initialization of a local variable turns the vari‐
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#able into a constant. This is default behaviour unless
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#-finitialized-nonconstants is used.
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LOCAL_CONSTANTS = false
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#There are only 2 known global variables of type void:
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#‘end_sys_globals’ and ‘end_sys_fields’. Any other void-variable
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#will warn.
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VOID_VARIABLES = false
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#A global function which is not declared with the ‘var’ keyword is
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#expected to have an implementing body, or be a builtin. If nei‐
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#ther is the case, it implicitly becomes a function pointer, and a
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#warning is generated.
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IMPLICIT_FUNCTION_POINTER = false
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#Currently there's no way for an in QC implemented function to
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#access variadic parameters. If a function with variadic parame‐
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#ters has an implementing body, a warning will be generated.
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VARIADIC_FUNCTION = false
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#Generate warnings about ‘$frame’ commands, for instance about
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#duplicate frame definitions.
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FRAME_MACROS = false
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#Warn about statements which have no effect. Any expression which
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#does not call a function or assigns a variable.
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EFFECTLESS_STATEMENT = false
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#The ‘end_sys_fields’ variable is supposed to be a global variable
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#of type void. It is also recognized as a field but this will
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#generate a warning.
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END_SYS_FIELDS = false
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#Warn when assigning to a function pointer with an unmatching sig‐
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#nature. This usually happens in cases like assigning the null
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#function to an entity's .think function pointer.
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ASSIGN_FUNCTION_TYPES = false
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#Show warnings created using the preprocessor's '#warning' directive
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CPP = true
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#Warn if there's a preprocessor #if spanning across several files.
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MULTIFILE_IF = true
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#Warn about multiple declarations of globals. This seems pretty
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#common in QC code so you probably do not want this unless you
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#want to clean up your code.
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DOUBLE_DECLARATION = false
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#The combination of const and var is not illegal, however differ‐
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#ent compilers may handle them differently. We were told, the
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#intention is to create a function-pointer which is not assigna‐
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#ble. This is exactly how we interpret it. However for this
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#interpretation the ‘var’ keyword is considered superfluous (and
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#philosophically wrong), so it is possible to generate a warning
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#about this.
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CONST_VAR = true
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#Warn about multibyte character constants, they do not work right
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#now.
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MULTIBYTE_CHARACTER = false
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#Warn if a ternary expression which contains a comma operator is
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#used without enclosing parenthesis, since this is most likely not
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#what you actually want. We recommend the -fcorrect-ternary
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#option.
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TERNARY_PRECEDENCE = false
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#Warn when encountering an unrecognized ‘#pragma’ line.
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UNKNOWN_PRAGMAS = true
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#Warn about unreachable code. That is: code after a return state‐
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#ment, or code after a call to a function marked as 'noreturn'.
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UNREACHABLE_CODE = true
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#Enable some warnings added in order to help debugging in the com‐
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#piler. You won't need this.
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DEBUG = false
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#Warn on an unknown attribute. The warning will inlclude only the
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#first token inside the enclosing attribute-brackets. This may
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#change when the actual attribute syntax is better defined.
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UNKNOWN_ATTRIBUTE = true
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#Warn when using reserved names such as ‘nil’.
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RESERVED_NAMES = true
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#Warn about global constants (using the ‘const’ keyword) with no
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#assigned value.
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UNINITIALIZED_CONSTANT = true
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#Warn about global variables with no initializing value. This is
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||
#off by default, and is added mostly to help find null-values
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||
#which are supposed to be replaced by the untyped 'nil' constant.
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UNINITIALIZED_GLOBAL = true
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#Warn when a variables is redeclared with a different qualifier.
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#For example when redeclaring a variable as 'var' which was previ‐
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#ously marked 'const'.
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DIFFERENT_QUALIFIERS = true
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||
#Similar to the above but for attributes like ‘[[noreturn]]’.
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||
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DIFFERENT_ATTRIBUTES = true
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||
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||
#Warn when a function is marked with the attribute "[[depre‐
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#cated]]". This flag enables a warning on calls to functions
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#marked as such.
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DEPRECATED = true
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#Warn about possible mistakes caused by missing or wrong parenthe‐
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||
#sis, like an assignment in an 'if' condition when there's no
|
||
#additional set of parens around the assignment.
|
||
|
||
PARENTHESIS = true
|
||
|
||
|
||
#When passing variadic parameters via ...(N) it can happen that
|
||
#incompatible types are passed to functions. This enables several
|
||
#warnings when static typechecking cannot guarantee consistent
|
||
#behavior.
|
||
|
||
UNSAFE_TYPES = true
|
||
|
||
|
||
#When compiling original id1 QC there is a definition for `break`
|
||
#which conflicts with the 'break' keyword in GMQCC. Enabling this
|
||
#print a warning when the definition occurs. The definition is
|
||
#ignored for both cases.
|
||
|
||
BREAKDEF = true
|
||
|
||
|
||
#When compiling original QuakeWorld QC there are instances where
|
||
#code overwrites constants. This is considered an error, however
|
||
#for QuakeWorld to compile it needs to be treated as a warning
|
||
#instead, as such this warning only works when -std=qcc.
|
||
|
||
CONST_OVERWRITE = true
|
||
|
||
|
||
#Warn about the use of preprocessor directives inside macros.
|
||
|
||
DIRECTIVE_INMACRO = true
|
||
|
||
|
||
#When using a function that is not explicitly defined, the compiler
|
||
#will search its intrinsics table for something that matches that
|
||
#function name by appending "__builtin_" to it. This behaviour may
|
||
#be unexpected, so enabling this will produce a diagnostic when
|
||
#such a function is resolved to a builtin.
|
||
|
||
BUILTINS = true
|
||
|
||
|
||
#When comparing an inexact value such as `1.0/3.0' the result is
|
||
#pathologically wrong. Enabling this will trigger a compiler warning
|
||
#on such expressions.
|
||
INEXACT_COMPARES = true
|
||
|
||
|
||
[optimizations]
|
||
#Some general peephole optimizations. For instance the code `a = b
|
||
#+ c` typically generates 2 instructions, an ADD and a STORE. This
|
||
#optimization removes the STORE and lets the ADD write directly
|
||
#into A.
|
||
|
||
PEEPHOLE = true
|
||
|
||
|
||
#Tail recursive function calls will be turned into loops to avoid
|
||
#the overhead of the CALL and RETURN instructions.
|
||
|
||
TAIL_RECURSION = true
|
||
|
||
|
||
#Make all functions which use neither local arrays nor have locals
|
||
#which are seen as possibly uninitialized use the same local sec‐
|
||
#tion. This should be pretty safe compared to other compilers
|
||
#which do not check for uninitialized values properly. The problem
|
||
#is that there's QC code out there which really doesn't initialize
|
||
#some values. This is fine as long as this kind of optimization
|
||
#isn't used, but also, only as long as the functions cannot be
|
||
#called in a recursive manner. Since it's hard to know whether or
|
||
#not an array is actually fully initialized, especially when ini‐
|
||
#tializing it via a loop, we assume functions with arrays to be
|
||
#too dangerous for this optimization.
|
||
|
||
OVERLAP_LOCALS = true
|
||
|
||
|
||
#This promotes locally declared variables to "temps". Meaning when
|
||
#a temporary result of an operation has to be stored somewhere, a
|
||
#local variable which is not 'alive' at that point can be used to
|
||
#keep the result. This can reduce the size of the global section.
|
||
#This will not have declared variables overlap, even if it was
|
||
#possible.
|
||
|
||
LOCAL_TEMPS = true
|
||
|
||
|
||
#Causes temporary values which do not need to be backed up on a
|
||
#CALL to not be stored in the function's locals-area. With this, a
|
||
#CALL to a function may need to back up fewer values and thus exe‐
|
||
#cute faster.
|
||
|
||
GLOBAL_TEMPS = true
|
||
|
||
|
||
#Don't generate defs for immediate values or even declared con‐
|
||
#stants. Meaning variables which are implicitly constant or qual‐
|
||
#ified as such using the 'const' keyword.
|
||
|
||
STRIP_CONSTANT_NAMES = true
|
||
|
||
|
||
#Aggressively reuse strings in the string section. When a string
|
||
#should be added which is the trailing substring of an already
|
||
#existing string, the existing string's tail will be returned
|
||
#instead of the new string being added.
|
||
#
|
||
#For example the following code will only generate 1 string:
|
||
#
|
||
# print("Hello you!\n");
|
||
# print("you!\n"); // trailing substring of "Hello you!\n"
|
||
#
|
||
#There's however one limitation. Strings are still processed in
|
||
#order, so if the above print statements were reversed, this opti‐
|
||
#mization would not happen.
|
||
|
||
OVERLAP_STRINGS = true
|
||
|
||
|
||
#By default, all parameters of a CALL are copied into the parame‐
|
||
#ter-globals right before the CALL instructions. This is the easi‐
|
||
#est and safest way to translate calls, but also adds a lot of
|
||
#unnecessary copying and unnecessary temporary values. This opti‐
|
||
#mization makes operations which are used as a parameter evaluate
|
||
#directly into the parameter-global if that is possible, which is
|
||
#when there's no other CALL instruction in between.
|
||
|
||
CALL_STORES = true
|
||
|
||
|
||
#Usually an empty RETURN instruction is added to the end of a void
|
||
#typed function. However, additionally after every function a DONE
|
||
#instruction is added for several reasons. (For example the qcvm's
|
||
#disassemble switch uses it to know when the function ends.). This
|
||
#optimization replaces that last RETURN with DONE rather than
|
||
#adding the DONE additionally.
|
||
|
||
VOID_RETURN = true
|
||
|
||
|
||
#Because traditional QC code doesn't allow you to access individ‐
|
||
#ual vector components of a computed vector without storing it in
|
||
#a local first, sometimes people multiply it by a constant like
|
||
#‘'0 1 0'’ to get, in this case, the y component of a vector. This
|
||
#optimization will turn such a multiplication into a direct compo‐
|
||
#nent access. If the factor is anything other than 1, a float-mul‐
|
||
#tiplication will be added, which is still faster than a vector
|
||
#multiplication.
|
||
|
||
VECTOR_COMPONENTS = true
|
||
|
||
|
||
#For constant expressions that result in dead code (such as a
|
||
#branch whos condition can be evaluated at compile-time), this
|
||
#will eliminate the branch and else body (if present) to produce
|
||
#more optimal code.
|
||
|
||
CONST_FOLD_DCE = true
|
||
|
||
|
||
#For constant expressions we can fold them to immediate values.
|
||
#this option cannot be disabled or enabled, the compiler forces
|
||
#it to stay enabled by ignoring the value entierly. There are
|
||
#plans to enable some level of constant fold disabling, but right
|
||
#now the language can't function without it. This is merley here
|
||
#as an exercise to the reader.
|
||
|
||
CONST_FOLD = true
|