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966 lines
42 KiB
Plaintext
This is Info file gcc.info, produced by Makeinfo version 1.67 from the
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input file gcc.texi.
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This file documents the use and the internals of the GNU compiler.
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Published by the Free Software Foundation 59 Temple Place - Suite 330
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Boston, MA 02111-1307 USA
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Copyright (C) 1988, 1989, 1992, 1993, 1994, 1995, 1996, 1997, 1998
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Free Software Foundation, Inc.
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Permission is granted to make and distribute verbatim copies of this
|
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manual provided the copyright notice and this permission notice are
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preserved on all copies.
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Permission is granted to copy and distribute modified versions of
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this manual under the conditions for verbatim copying, provided also
|
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that the sections entitled "GNU General Public License," "Funding for
|
||
Free Software," and "Protect Your Freedom--Fight `Look And Feel'" are
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included exactly as in the original, and provided that the entire
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resulting derived work is distributed under the terms of a permission
|
||
notice identical to this one.
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||
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Permission is granted to copy and distribute translations of this
|
||
manual into another language, under the above conditions for modified
|
||
versions, except that the sections entitled "GNU General Public
|
||
License," "Funding for Free Software," and "Protect Your Freedom--Fight
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`Look And Feel'", and this permission notice, may be included in
|
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translations approved by the Free Software Foundation instead of in the
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original English.
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File: gcc.info, Node: Misc, Prev: Cross-compilation, Up: Target Macros
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Miscellaneous Parameters
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========================
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Here are several miscellaneous parameters.
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`PREDICATE_CODES'
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Define this if you have defined special-purpose predicates in the
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file `MACHINE.c'. This macro is called within an initializer of an
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array of structures. The first field in the structure is the name
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of a predicate and the second field is an array of rtl codes. For
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each predicate, list all rtl codes that can be in expressions
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matched by the predicate. The list should have a trailing comma.
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Here is an example of two entries in the list for a typical RISC
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machine:
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#define PREDICATE_CODES \
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{"gen_reg_rtx_operand", {SUBREG, REG}}, \
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{"reg_or_short_cint_operand", {SUBREG, REG, CONST_INT}},
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Defining this macro does not affect the generated code (however,
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incorrect definitions that omit an rtl code that may be matched by
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the predicate can cause the compiler to malfunction). Instead, it
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allows the table built by `genrecog' to be more compact and
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efficient, thus speeding up the compiler. The most important
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predicates to include in the list specified by this macro are
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those used in the most insn patterns.
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`CASE_VECTOR_MODE'
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An alias for a machine mode name. This is the machine mode that
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elements of a jump-table should have.
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`CASE_VECTOR_PC_RELATIVE'
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Define this macro if jump-tables should contain relative addresses.
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`CASE_DROPS_THROUGH'
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Define this if control falls through a `case' insn when the index
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value is out of range. This means the specified default-label is
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actually ignored by the `case' insn proper.
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`CASE_VALUES_THRESHOLD'
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Define this to be the smallest number of different values for
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which it is best to use a jump-table instead of a tree of
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conditional branches. The default is four for machines with a
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`casesi' instruction and five otherwise. This is best for most
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machines.
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`WORD_REGISTER_OPERATIONS'
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Define this macro if operations between registers with integral
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mode smaller than a word are always performed on the entire
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register. Most RISC machines have this property and most CISC
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machines do not.
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`LOAD_EXTEND_OP (MODE)'
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Define this macro to be a C expression indicating when insns that
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read memory in MODE, an integral mode narrower than a word, set the
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bits outside of MODE to be either the sign-extension or the
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zero-extension of the data read. Return `SIGN_EXTEND' for values
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of MODE for which the insn sign-extends, `ZERO_EXTEND' for which
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it zero-extends, and `NIL' for other modes.
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This macro is not called with MODE non-integral or with a width
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greater than or equal to `BITS_PER_WORD', so you may return any
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value in this case. Do not define this macro if it would always
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return `NIL'. On machines where this macro is defined, you will
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normally define it as the constant `SIGN_EXTEND' or `ZERO_EXTEND'.
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`SHORT_IMMEDIATES_SIGN_EXTEND'
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Define this macro if loading short immediate values into registers
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sign extends.
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`IMPLICIT_FIX_EXPR'
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An alias for a tree code that should be used by default for
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conversion of floating point values to fixed point. Normally,
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`FIX_ROUND_EXPR' is used.
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`FIXUNS_TRUNC_LIKE_FIX_TRUNC'
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Define this macro if the same instructions that convert a floating
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point number to a signed fixed point number also convert validly
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to an unsigned one.
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`EASY_DIV_EXPR'
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An alias for a tree code that is the easiest kind of division to
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compile code for in the general case. It may be `TRUNC_DIV_EXPR',
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`FLOOR_DIV_EXPR', `CEIL_DIV_EXPR' or `ROUND_DIV_EXPR'. These four
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division operators differ in how they round the result to an
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integer. `EASY_DIV_EXPR' is used when it is permissible to use
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any of those kinds of division and the choice should be made on
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the basis of efficiency.
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`MOVE_MAX'
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The maximum number of bytes that a single instruction can move
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quickly between memory and registers or between two memory
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locations.
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`MAX_MOVE_MAX'
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The maximum number of bytes that a single instruction can move
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quickly between memory and registers or between two memory
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locations. If this is undefined, the default is `MOVE_MAX'.
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Otherwise, it is the constant value that is the largest value that
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`MOVE_MAX' can have at run-time.
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`SHIFT_COUNT_TRUNCATED'
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A C expression that is nonzero if on this machine the number of
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bits actually used for the count of a shift operation is equal to
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the number of bits needed to represent the size of the object
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being shifted. When this macro is non-zero, the compiler will
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assume that it is safe to omit a sign-extend, zero-extend, and
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certain bitwise `and' instructions that truncates the count of a
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shift operation. On machines that have instructions that act on
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bitfields at variable positions, which may include `bit test'
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instructions, a nonzero `SHIFT_COUNT_TRUNCATED' also enables
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deletion of truncations of the values that serve as arguments to
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bitfield instructions.
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If both types of instructions truncate the count (for shifts) and
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position (for bitfield operations), or if no variable-position
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bitfield instructions exist, you should define this macro.
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However, on some machines, such as the 80386 and the 680x0,
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truncation only applies to shift operations and not the (real or
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pretended) bitfield operations. Define `SHIFT_COUNT_TRUNCATED' to
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be zero on such machines. Instead, add patterns to the `md' file
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that include the implied truncation of the shift instructions.
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You need not define this macro if it would always have the value
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of zero.
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`TRULY_NOOP_TRUNCATION (OUTPREC, INPREC)'
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A C expression which is nonzero if on this machine it is safe to
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"convert" an integer of INPREC bits to one of OUTPREC bits (where
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OUTPREC is smaller than INPREC) by merely operating on it as if it
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had only OUTPREC bits.
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On many machines, this expression can be 1.
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When `TRULY_NOOP_TRUNCATION' returns 1 for a pair of sizes for
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modes for which `MODES_TIEABLE_P' is 0, suboptimal code can result.
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If this is the case, making `TRULY_NOOP_TRUNCATION' return 0 in
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such cases may improve things.
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`STORE_FLAG_VALUE'
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A C expression describing the value returned by a comparison
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operator with an integral mode and stored by a store-flag
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instruction (`sCOND') when the condition is true. This
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description must apply to *all* the `sCOND' patterns and all the
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comparison operators whose results have a `MODE_INT' mode.
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A value of 1 or -1 means that the instruction implementing the
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comparison operator returns exactly 1 or -1 when the comparison is
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true and 0 when the comparison is false. Otherwise, the value
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indicates which bits of the result are guaranteed to be 1 when the
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comparison is true. This value is interpreted in the mode of the
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comparison operation, which is given by the mode of the first
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operand in the `sCOND' pattern. Either the low bit or the sign
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bit of `STORE_FLAG_VALUE' be on. Presently, only those bits are
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used by the compiler.
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If `STORE_FLAG_VALUE' is neither 1 or -1, the compiler will
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generate code that depends only on the specified bits. It can also
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replace comparison operators with equivalent operations if they
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cause the required bits to be set, even if the remaining bits are
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undefined. For example, on a machine whose comparison operators
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return an `SImode' value and where `STORE_FLAG_VALUE' is defined as
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`0x80000000', saying that just the sign bit is relevant, the
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expression
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(ne:SI (and:SI X (const_int POWER-OF-2)) (const_int 0))
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can be converted to
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(ashift:SI X (const_int N))
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where N is the appropriate shift count to move the bit being
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tested into the sign bit.
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There is no way to describe a machine that always sets the
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low-order bit for a true value, but does not guarantee the value
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of any other bits, but we do not know of any machine that has such
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an instruction. If you are trying to port GNU CC to such a
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machine, include an instruction to perform a logical-and of the
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result with 1 in the pattern for the comparison operators and let
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us know (*note How to Report Bugs: Bug Reporting.).
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Often, a machine will have multiple instructions that obtain a
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value from a comparison (or the condition codes). Here are rules
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to guide the choice of value for `STORE_FLAG_VALUE', and hence the
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instructions to be used:
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* Use the shortest sequence that yields a valid definition for
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`STORE_FLAG_VALUE'. It is more efficient for the compiler to
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"normalize" the value (convert it to, e.g., 1 or 0) than for
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the comparison operators to do so because there may be
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opportunities to combine the normalization with other
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operations.
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* For equal-length sequences, use a value of 1 or -1, with -1
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being slightly preferred on machines with expensive jumps and
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1 preferred on other machines.
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* As a second choice, choose a value of `0x80000001' if
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instructions exist that set both the sign and low-order bits
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but do not define the others.
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* Otherwise, use a value of `0x80000000'.
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Many machines can produce both the value chosen for
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`STORE_FLAG_VALUE' and its negation in the same number of
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instructions. On those machines, you should also define a pattern
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for those cases, e.g., one matching
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(set A (neg:M (ne:M B C)))
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Some machines can also perform `and' or `plus' operations on
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condition code values with less instructions than the corresponding
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`sCOND' insn followed by `and' or `plus'. On those machines,
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define the appropriate patterns. Use the names `incscc' and
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`decscc', respectively, for the patterns which perform `plus' or
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`minus' operations on condition code values. See `rs6000.md' for
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some examples. The GNU Superoptizer can be used to find such
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instruction sequences on other machines.
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You need not define `STORE_FLAG_VALUE' if the machine has no
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store-flag instructions.
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`FLOAT_STORE_FLAG_VALUE'
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A C expression that gives a non-zero floating point value that is
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returned when comparison operators with floating-point results are
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true. Define this macro on machine that have comparison
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operations that return floating-point values. If there are no
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such operations, do not define this macro.
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`Pmode'
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An alias for the machine mode for pointers. On most machines,
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define this to be the integer mode corresponding to the width of a
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hardware pointer; `SImode' on 32-bit machine or `DImode' on 64-bit
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machines. On some machines you must define this to be one of the
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partial integer modes, such as `PSImode'.
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The width of `Pmode' must be at least as large as the value of
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`POINTER_SIZE'. If it is not equal, you must define the macro
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`POINTERS_EXTEND_UNSIGNED' to specify how pointers are extended to
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`Pmode'.
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`FUNCTION_MODE'
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An alias for the machine mode used for memory references to
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functions being called, in `call' RTL expressions. On most
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machines this should be `QImode'.
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`INTEGRATE_THRESHOLD (DECL)'
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A C expression for the maximum number of instructions above which
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the function DECL should not be inlined. DECL is a
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`FUNCTION_DECL' node.
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The default definition of this macro is 64 plus 8 times the number
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of arguments that the function accepts. Some people think a larger
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threshold should be used on RISC machines.
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`SCCS_DIRECTIVE'
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Define this if the preprocessor should ignore `#sccs' directives
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and print no error message.
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`NO_IMPLICIT_EXTERN_C'
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Define this macro if the system header files support C++ as well
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as C. This macro inhibits the usual method of using system header
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files in C++, which is to pretend that the file's contents are
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enclosed in `extern "C" {...}'.
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`HANDLE_PRAGMA (STREAM, NODE)'
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Define this macro if you want to implement any pragmas. If
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defined, it is a C expression whose value is 1 if the pragma was
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handled by the function. The argument STREAM is the stdio input
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stream from which the source text can be read. NODE is the tree
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node for the identifier after the `#pragma'.
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It is generally a bad idea to implement new uses of `#pragma'. The
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only reason to define this macro is for compatibility with other
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compilers that do support `#pragma' for the sake of any user
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programs which already use it.
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`VALID_MACHINE_DECL_ATTRIBUTE (DECL, ATTRIBUTES, IDENTIFIER, ARGS)'
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If defined, a C expression whose value is nonzero if IDENTIFIER
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with arguments ARGS is a valid machine specific attribute for DECL.
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The attributes in ATTRIBUTES have previously been assigned to DECL.
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||
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`VALID_MACHINE_TYPE_ATTRIBUTE (TYPE, ATTRIBUTES, IDENTIFIER, ARGS)'
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If defined, a C expression whose value is nonzero if IDENTIFIER
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with arguments ARGS is a valid machine specific attribute for TYPE.
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The attributes in ATTRIBUTES have previously been assigned to TYPE.
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`COMP_TYPE_ATTRIBUTES (TYPE1, TYPE2)'
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||
If defined, a C expression whose value is zero if the attributes on
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TYPE1 and TYPE2 are incompatible, one if they are compatible, and
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two if they are nearly compatible (which causes a warning to be
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generated).
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`SET_DEFAULT_TYPE_ATTRIBUTES (TYPE)'
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If defined, a C statement that assigns default attributes to newly
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defined TYPE.
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||
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`DOLLARS_IN_IDENTIFIERS'
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||
Define this macro to control use of the character `$' in identifier
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names. 0 means `$' is not allowed by default; 1 means it is
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allowed. 1 is the default; there is no need to define this macro
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in that case. This macro controls the compiler proper; it does
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not affect the preprocessor.
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`NO_DOLLAR_IN_LABEL'
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Define this macro if the assembler does not accept the character
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`$' in label names. By default constructors and destructors in
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G++ have `$' in the identifiers. If this macro is defined, `.' is
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used instead.
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`NO_DOT_IN_LABEL'
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Define this macro if the assembler does not accept the character
|
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`.' in label names. By default constructors and destructors in G++
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||
have names that use `.'. If this macro is defined, these names
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are rewritten to avoid `.'.
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||
|
||
`DEFAULT_MAIN_RETURN'
|
||
Define this macro if the target system expects every program's
|
||
`main' function to return a standard "success" value by default
|
||
(if no other value is explicitly returned).
|
||
|
||
The definition should be a C statement (sans semicolon) to
|
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generate the appropriate rtl instructions. It is used only when
|
||
compiling the end of `main'.
|
||
|
||
`HAVE_ATEXIT'
|
||
Define this if the target system supports the function `atexit'
|
||
from the ANSI C standard. If this is not defined, and
|
||
`INIT_SECTION_ASM_OP' is not defined, a default `exit' function
|
||
will be provided to support C++.
|
||
|
||
`EXIT_BODY'
|
||
Define this if your `exit' function needs to do something besides
|
||
calling an external function `_cleanup' before terminating with
|
||
`_exit'. The `EXIT_BODY' macro is only needed if neither
|
||
`HAVE_ATEXIT' nor `INIT_SECTION_ASM_OP' are defined.
|
||
|
||
`INSN_SETS_ARE_DELAYED (INSN)'
|
||
Define this macro as a C expression that is nonzero if it is safe
|
||
for the delay slot scheduler to place instructions in the delay
|
||
slot of INSN, even if they appear to use a resource set or
|
||
clobbered in INSN. INSN is always a `jump_insn' or an `insn'; GNU
|
||
CC knows that every `call_insn' has this behavior. On machines
|
||
where some `insn' or `jump_insn' is really a function call and
|
||
hence has this behavior, you should define this macro.
|
||
|
||
You need not define this macro if it would always return zero.
|
||
|
||
`INSN_REFERENCES_ARE_DELAYED (INSN)'
|
||
Define this macro as a C expression that is nonzero if it is safe
|
||
for the delay slot scheduler to place instructions in the delay
|
||
slot of INSN, even if they appear to set or clobber a resource
|
||
referenced in INSN. INSN is always a `jump_insn' or an `insn'.
|
||
On machines where some `insn' or `jump_insn' is really a function
|
||
call and its operands are registers whose use is actually in the
|
||
subroutine it calls, you should define this macro. Doing so
|
||
allows the delay slot scheduler to move instructions which copy
|
||
arguments into the argument registers into the delay slot of INSN.
|
||
|
||
You need not define this macro if it would always return zero.
|
||
|
||
`MACHINE_DEPENDENT_REORG (INSN)'
|
||
In rare cases, correct code generation requires extra machine
|
||
dependent processing between the second jump optimization pass and
|
||
delayed branch scheduling. On those machines, define this macro
|
||
as a C statement to act on the code starting at INSN.
|
||
|
||
`MULTIPLE_SYMBOL_SPACES'
|
||
Define this macro if in some cases global symbols from one
|
||
translation unit may not be bound to undefined symbols in another
|
||
translation unit without user intervention. For instance, under
|
||
Microsoft Windows symbols must be explicitly imported from shared
|
||
libraries (DLLs).
|
||
|
||
`GIV_SORT_CRITERION (GIV1, GIV2)'
|
||
In some cases, the strength reduction optimization pass can
|
||
produce better code if this is defined. This macro controls the
|
||
order that induction variables are combined. This macro is
|
||
particularly useful if the target has limited addressing modes.
|
||
For instance, the SH target has only positive offsets in
|
||
addresses. Thus sorting to put the smallest address first allows
|
||
the most combinations to be found.
|
||
|
||
|
||
File: gcc.info, Node: Config, Next: Fragments, Prev: Target Macros, Up: Top
|
||
|
||
The Configuration File
|
||
**********************
|
||
|
||
The configuration file `xm-MACHINE.h' contains macro definitions
|
||
that describe the machine and system on which the compiler is running,
|
||
unlike the definitions in `MACHINE.h', which describe the machine for
|
||
which the compiler is producing output. Most of the values in
|
||
`xm-MACHINE.h' are actually the same on all machines that GNU CC runs
|
||
on, so large parts of all configuration files are identical. But there
|
||
are some macros that vary:
|
||
|
||
`USG'
|
||
Define this macro if the host system is System V.
|
||
|
||
`VMS'
|
||
Define this macro if the host system is VMS.
|
||
|
||
`FATAL_EXIT_CODE'
|
||
A C expression for the status code to be returned when the compiler
|
||
exits after serious errors.
|
||
|
||
`SUCCESS_EXIT_CODE'
|
||
A C expression for the status code to be returned when the compiler
|
||
exits without serious errors.
|
||
|
||
`HOST_WORDS_BIG_ENDIAN'
|
||
Defined if the host machine stores words of multi-word values in
|
||
big-endian order. (GNU CC does not depend on the host byte
|
||
ordering within a word.)
|
||
|
||
`HOST_FLOAT_WORDS_BIG_ENDIAN'
|
||
Define this macro to be 1 if the host machine stores `DFmode',
|
||
`XFmode' or `TFmode' floating point numbers in memory with the
|
||
word containing the sign bit at the lowest address; otherwise,
|
||
define it to be zero.
|
||
|
||
This macro need not be defined if the ordering is the same as for
|
||
multi-word integers.
|
||
|
||
`HOST_FLOAT_FORMAT'
|
||
A numeric code distinguishing the floating point format for the
|
||
host machine. See `TARGET_FLOAT_FORMAT' in *Note Storage Layout::
|
||
for the alternatives and default.
|
||
|
||
`HOST_BITS_PER_CHAR'
|
||
A C expression for the number of bits in `char' on the host
|
||
machine.
|
||
|
||
`HOST_BITS_PER_SHORT'
|
||
A C expression for the number of bits in `short' on the host
|
||
machine.
|
||
|
||
`HOST_BITS_PER_INT'
|
||
A C expression for the number of bits in `int' on the host machine.
|
||
|
||
`HOST_BITS_PER_LONG'
|
||
A C expression for the number of bits in `long' on the host
|
||
machine.
|
||
|
||
`ONLY_INT_FIELDS'
|
||
Define this macro to indicate that the host compiler only supports
|
||
`int' bit fields, rather than other integral types, including
|
||
`enum', as do most C compilers.
|
||
|
||
`OBSTACK_CHUNK_SIZE'
|
||
A C expression for the size of ordinary obstack chunks. If you
|
||
don't define this, a usually-reasonable default is used.
|
||
|
||
`OBSTACK_CHUNK_ALLOC'
|
||
The function used to allocate obstack chunks. If you don't define
|
||
this, `xmalloc' is used.
|
||
|
||
`OBSTACK_CHUNK_FREE'
|
||
The function used to free obstack chunks. If you don't define
|
||
this, `free' is used.
|
||
|
||
`USE_C_ALLOCA'
|
||
Define this macro to indicate that the compiler is running with the
|
||
`alloca' implemented in C. This version of `alloca' can be found
|
||
in the file `alloca.c'; to use it, you must also alter the
|
||
`Makefile' variable `ALLOCA'. (This is done automatically for the
|
||
systems on which we know it is needed.)
|
||
|
||
If you do define this macro, you should probably do it as follows:
|
||
|
||
#ifndef __GNUC__
|
||
#define USE_C_ALLOCA
|
||
#else
|
||
#define alloca __builtin_alloca
|
||
#endif
|
||
|
||
so that when the compiler is compiled with GNU CC it uses the more
|
||
efficient built-in `alloca' function.
|
||
|
||
`FUNCTION_CONVERSION_BUG'
|
||
Define this macro to indicate that the host compiler does not
|
||
properly handle converting a function value to a
|
||
pointer-to-function when it is used in an expression.
|
||
|
||
`MULTIBYTE_CHARS'
|
||
Define this macro to enable support for multibyte characters in the
|
||
input to GNU CC. This requires that the host system support the
|
||
ANSI C library functions for converting multibyte characters to
|
||
wide characters.
|
||
|
||
`POSIX'
|
||
Define this if your system is POSIX.1 compliant.
|
||
|
||
`NO_SYS_SIGLIST'
|
||
Define this if your system *does not* provide the variable
|
||
`sys_siglist'.
|
||
|
||
Some systems do provide this variable, but with a different name
|
||
such as `_sys_siglist'. On these systems, you can define
|
||
`sys_siglist' as a macro which expands into the name actually
|
||
provided.
|
||
|
||
Autoconf normally defines `SYS_SIGLIST_DECLARED' when it finds a
|
||
declaration of `sys_siglist' in the system header files. However,
|
||
when you define `sys_siglist' to a different name autoconf will
|
||
not automatically define `SYS_SIGLIST_DECLARED'. Therefore, if
|
||
you define `sys_siglist', you should also define
|
||
`SYS_SIGLIST_DECLARED'.
|
||
|
||
`USE_PROTOTYPES'
|
||
Define this to be 1 if you know that the host compiler supports
|
||
prototypes, even if it doesn't define __STDC__, or define it to be
|
||
0 if you do not want any prototypes used in compiling GNU CC. If
|
||
`USE_PROTOTYPES' is not defined, it will be determined
|
||
automatically whether your compiler supports prototypes by
|
||
checking if `__STDC__' is defined.
|
||
|
||
`NO_MD_PROTOTYPES'
|
||
Define this if you wish suppression of prototypes generated from
|
||
the machine description file, but to use other prototypes within
|
||
GNU CC. If `USE_PROTOTYPES' is defined to be 0, or the host
|
||
compiler does not support prototypes, this macro has no effect.
|
||
|
||
`MD_CALL_PROTOTYPES'
|
||
Define this if you wish to generate prototypes for the `gen_call'
|
||
or `gen_call_value' functions generated from the machine
|
||
description file. If `USE_PROTOTYPES' is defined to be 0, or the
|
||
host compiler does not support prototypes, or `NO_MD_PROTOTYPES'
|
||
is defined, this macro has no effect. As soon as all of the
|
||
machine descriptions are modified to have the appropriate number
|
||
of arguments, this macro will be removed.
|
||
|
||
`NO_STAB_H'
|
||
Define this if your system does not have the include file
|
||
`stab.h'. If `USG' is defined, `NO_STAB_H' is assumed.
|
||
|
||
`PATH_SEPARATOR'
|
||
Define this macro to be a C character constant representing the
|
||
character used to separate components in paths. The default value
|
||
is the colon character
|
||
|
||
`DIR_SEPARATOR'
|
||
If your system uses some character other than slash to separate
|
||
directory names within a file specification, define this macro to
|
||
be a C character constant specifying that character. When GNU CC
|
||
displays file names, the character you specify will be used. GNU
|
||
CC will test for both slash and the character you specify when
|
||
parsing filenames.
|
||
|
||
`OBJECT_SUFFIX'
|
||
Define this macro to be a C string representing the suffix for
|
||
object files on your machine. If you do not define this macro,
|
||
GNU CC will use `.o' as the suffix for object files.
|
||
|
||
`EXECUTABLE_SUFFIX'
|
||
Define this macro to be a C string representing the suffix for
|
||
executable files on your machine. If you do not define this
|
||
macro, GNU CC will use the null string as the suffix for object
|
||
files.
|
||
|
||
`COLLECT_EXPORT_LIST'
|
||
If defined, `collect2' will scan the individual object files
|
||
specified on its command line and create an export list for the
|
||
linker. Define this macro for systems like AIX, where the linker
|
||
discards object files that are not referenced from `main' and uses
|
||
export lists.
|
||
|
||
In addition, configuration files for system V define `bcopy',
|
||
`bzero' and `bcmp' as aliases. Some files define `alloca' as a macro
|
||
when compiled with GNU CC, in order to take advantage of the benefit of
|
||
GNU CC's built-in `alloca'.
|
||
|
||
|
||
File: gcc.info, Node: Fragments, Next: Funding, Prev: Config, Up: Top
|
||
|
||
Makefile Fragments
|
||
******************
|
||
|
||
When you configure GNU CC using the `configure' script (*note
|
||
Installation::.), it will construct the file `Makefile' from the
|
||
template file `Makefile.in'. When it does this, it will incorporate
|
||
makefile fragment files from the `config' directory, named `t-TARGET'
|
||
and `x-HOST'. If these files do not exist, it means nothing needs to
|
||
be added for a given target or host.
|
||
|
||
* Menu:
|
||
|
||
* Target Fragment:: Writing the `t-TARGET' file.
|
||
* Host Fragment:: Writing the `x-HOST' file.
|
||
|
||
|
||
File: gcc.info, Node: Target Fragment, Next: Host Fragment, Up: Fragments
|
||
|
||
The Target Makefile Fragment
|
||
============================
|
||
|
||
The target makefile fragment, `t-TARGET', defines special target
|
||
dependent variables and targets used in the `Makefile':
|
||
|
||
`LIBGCC1'
|
||
The rule to use to build `libgcc1.a'. If your target does not
|
||
need to use the functions in `libgcc1.a', set this to empty.
|
||
*Note Interface::.
|
||
|
||
`CROSS_LIBGCC1'
|
||
The rule to use to build `libgcc1.a' when building a cross
|
||
compiler. If your target does not need to use the functions in
|
||
`libgcc1.a', set this to empty. *Note Cross Runtime::.
|
||
|
||
`LIBGCC2_CFLAGS'
|
||
Compiler flags to use when compiling `libgcc2.c'.
|
||
|
||
`LIB2FUNCS_EXTRA'
|
||
A list of source file names to be compiled or assembled and
|
||
inserted into `libgcc.a'.
|
||
|
||
`CRTSTUFF_T_CFLAGS'
|
||
Special flags used when compiling `crtstuff.c'. *Note
|
||
Initialization::.
|
||
|
||
`CRTSTUFF_T_CFLAGS_S'
|
||
Special flags used when compiling `crtstuff.c' for shared linking.
|
||
Used if you use `crtbeginS.o' and `crtendS.o' in `EXTRA-PARTS'.
|
||
*Note Initialization::.
|
||
|
||
`MULTILIB_OPTIONS'
|
||
For some targets, invoking GNU CC in different ways produces
|
||
objects that can not be linked together. For example, for some
|
||
targets GNU CC produces both big and little endian code. For
|
||
these targets, you must arrange for multiple versions of
|
||
`libgcc.a' to be compiled, one for each set of incompatible
|
||
options. When GNU CC invokes the linker, it arranges to link in
|
||
the right version of `libgcc.a', based on the command line options
|
||
used.
|
||
|
||
The `MULTILIB_OPTIONS' macro lists the set of options for which
|
||
special versions of `libgcc.a' must be built. Write options that
|
||
are mutually incompatible side by side, separated by a slash.
|
||
Write options that may be used together separated by a space. The
|
||
build procedure will build all combinations of compatible options.
|
||
|
||
For example, if you set `MULTILIB_OPTIONS' to `m68000/m68020
|
||
msoft-float', `Makefile' will build special versions of `libgcc.a'
|
||
using the sets of options `-m68000', `-m68020', `-msoft-float',
|
||
`-m68000 -msoft-float', and `-m68020 -msoft-float'.
|
||
|
||
`MULTILIB_DIRNAMES'
|
||
If `MULTILIB_OPTIONS' is used, this variable specifies the
|
||
directory names that should be used to hold the various libraries.
|
||
Write one element in `MULTILIB_DIRNAMES' for each element in
|
||
`MULTILIB_OPTIONS'. If `MULTILIB_DIRNAMES' is not used, the
|
||
default value will be `MULTILIB_OPTIONS', with all slashes treated
|
||
as spaces.
|
||
|
||
For example, if `MULTILIB_OPTIONS' is specified as `m68000/m68020
|
||
msoft-float', then the default value of `MULTILIB_DIRNAMES' is
|
||
`m68000 m68020 msoft-float'. You may specify a different value if
|
||
you desire a different set of directory names.
|
||
|
||
`MULTILIB_MATCHES'
|
||
Sometimes the same option may be written in two different ways.
|
||
If an option is listed in `MULTILIB_OPTIONS', GNU CC needs to know
|
||
about any synonyms. In that case, set `MULTILIB_MATCHES' to a
|
||
list of items of the form `option=option' to describe all relevant
|
||
synonyms. For example, `m68000=mc68000 m68020=mc68020'.
|
||
|
||
`MULTILIB_EXCEPTIONS'
|
||
Sometimes when there are multiple sets of `MULTILIB_OPTIONS' being
|
||
specified, there are combinations that should not be built. In
|
||
that case, set `MULTILIB_EXCEPTIONS' to be all of the switch
|
||
exceptions in shell case syntax that should not be built.
|
||
|
||
For example, in the PowerPC embedded ABI support, it was not
|
||
desirable to build libraries that compiled with the
|
||
`-mcall-aixdesc' option and either of the `-mcall-aixdesc' or
|
||
`-mlittle' options at the same time, and therefore
|
||
`MULTILIB_EXCEPTIONS' is set to `*mrelocatable/*mcall-aixdesc*
|
||
*mlittle/*mcall-aixdesc*'.
|
||
|
||
`MULTILIB_EXTRA_OPTS'
|
||
Sometimes it is desirable that when building multiple versions of
|
||
`libgcc.a' certain options should always be passed on to the
|
||
compiler. In that case, set `MULTILIB_EXTRA_OPTS' to be the list
|
||
of options to be used for all builds.
|
||
|
||
|
||
File: gcc.info, Node: Host Fragment, Prev: Target Fragment, Up: Fragments
|
||
|
||
The Host Makefile Fragment
|
||
==========================
|
||
|
||
The host makefile fragment, `x-HOST', defines special host dependent
|
||
variables and targets used in the `Makefile':
|
||
|
||
`CC'
|
||
The compiler to use when building the first stage.
|
||
|
||
`CLIB'
|
||
Additional host libraries to link with.
|
||
|
||
`OLDCC'
|
||
The compiler to use when building `libgcc1.a' for a native
|
||
compilation.
|
||
|
||
`OLDAR'
|
||
The version of `ar' to use when building `libgcc1.a' for a native
|
||
compilation.
|
||
|
||
`INSTALL'
|
||
The install program to use.
|
||
|
||
|
||
File: gcc.info, Node: Funding, Next: Look and Feel, Prev: Fragments, Up: Top
|
||
|
||
Funding Free Software
|
||
*********************
|
||
|
||
If you want to have more free software a few years from now, it makes
|
||
sense for you to help encourage people to contribute funds for its
|
||
development. The most effective approach known is to encourage
|
||
commercial redistributors to donate.
|
||
|
||
Users of free software systems can boost the pace of development by
|
||
encouraging for-a-fee distributors to donate part of their selling price
|
||
to free software developers--the Free Software Foundation, and others.
|
||
|
||
The way to convince distributors to do this is to demand it and
|
||
expect it from them. So when you compare distributors, judge them
|
||
partly by how much they give to free software development. Show
|
||
distributors they must compete to be the one who gives the most.
|
||
|
||
To make this approach work, you must insist on numbers that you can
|
||
compare, such as, "We will donate ten dollars to the Frobnitz project
|
||
for each disk sold." Don't be satisfied with a vague promise, such as
|
||
"A portion of the profits are donated," since it doesn't give a basis
|
||
for comparison.
|
||
|
||
Even a precise fraction "of the profits from this disk" is not very
|
||
meaningful, since creative accounting and unrelated business decisions
|
||
can greatly alter what fraction of the sales price counts as profit.
|
||
If the price you pay is $50, ten percent of the profit is probably less
|
||
than a dollar; it might be a few cents, or nothing at all.
|
||
|
||
Some redistributors do development work themselves. This is useful
|
||
too; but to keep everyone honest, you need to inquire how much they do,
|
||
and what kind. Some kinds of development make much more long-term
|
||
difference than others. For example, maintaining a separate version of
|
||
a program contributes very little; maintaining the standard version of a
|
||
program for the whole community contributes much. Easy new ports
|
||
contribute little, since someone else would surely do them; difficult
|
||
ports such as adding a new CPU to the GNU C compiler contribute more;
|
||
major new features or packages contribute the most.
|
||
|
||
By establishing the idea that supporting further development is "the
|
||
proper thing to do" when distributing free software for a fee, we can
|
||
assure a steady flow of resources into making more free software.
|
||
|
||
Copyright (C) 1994 Free Software Foundation, Inc.
|
||
Verbatim copying and redistribution of this section is permitted
|
||
without royalty; alteration is not permitted.
|
||
|
||
|
||
File: gcc.info, Node: Look and Feel, Next: Copying, Prev: Funding, Up: Top
|
||
|
||
Protect Your Freedom--Fight "Look And Feel"
|
||
*******************************************
|
||
|
||
This section is a political message from the League for Programming
|
||
Freedom to the users of GNU CC. We have included it here because
|
||
the issue of interface copyright is important to the GNU project.
|
||
|
||
Apple, Lotus, and now CDC have tried to create a new form of legal
|
||
monopoly: a copyright on a user interface.
|
||
|
||
An interface is a kind of language--a set of conventions for
|
||
communication between two entities, human or machine. Until a few years
|
||
ago, the law seemed clear: interfaces were outside the domain of
|
||
copyright, so programmers could program freely and implement whatever
|
||
interface the users demanded. Imitating de-facto standard interfaces,
|
||
sometimes with improvements, was standard practice in the computer
|
||
field. These improvements, if accepted by the users, caught on and
|
||
became the norm; in this way, much progress took place.
|
||
|
||
Computer users, and most software developers, were happy with this
|
||
state of affairs. However, large companies such as Apple and Lotus
|
||
would prefer a different system--one in which they can own interfaces
|
||
and thereby rid themselves of all serious competitors. They hope that
|
||
interface copyright will give them, in effect, monopolies on major
|
||
classes of software.
|
||
|
||
Other large companies such as IBM and Digital also favor interface
|
||
monopolies, for the same reason: if languages become property, they
|
||
expect to own many de-facto standard languages. But Apple and Lotus are
|
||
the ones who have actually sued. Apple's lawsuit was defeated, for
|
||
reasons only partly related to the general issue of interface copyright.
|
||
|
||
Lotus won lawsuits against two small companies, which were thus put
|
||
out of business. Then Lotus sued Borland; Lotus won in the trial court
|
||
(no surprise, since it was the same court that had ruled for Lotus twice
|
||
before), but the court of appeals ruled in favor of Borland, which was
|
||
assisted by a friend-of-the-court brief from the League for Programming
|
||
Freedom.
|
||
|
||
Lotus appealed the case to the Supreme Court, which heard the case
|
||
but was unable to reach a decision. This failure means that the appeals
|
||
court decision stands, in one portion of the United States, and may
|
||
influence the other appeals courts, but it does not set a nationwide
|
||
precedent. The battle is not over, and it is not limited to the United
|
||
States.
|
||
|
||
The battle is extending into other areas of software as well. In
|
||
1995 a company that produced a simulator for a CDC computer was shut
|
||
down by a copyright lawsuit, in which CDC charged that the simulator
|
||
infringed the copyright on the manuals for the computer.
|
||
|
||
If the monopolists get their way, they will hobble the software
|
||
field:
|
||
|
||
* Gratuitous incompatibilities will burden users. Imagine if each
|
||
car manufacturer had to design a different way to start, stop, and
|
||
steer a car.
|
||
|
||
* Users will be "locked in" to whichever interface they learn; then
|
||
they will be prisoners of one supplier, who will charge a
|
||
monopolistic price.
|
||
|
||
* Large companies have an unfair advantage wherever lawsuits become
|
||
commonplace. Since they can afford to sue, they can intimidate
|
||
smaller developers with threats even when they don't really have a
|
||
case.
|
||
|
||
* Interface improvements will come slower, since incremental
|
||
evolution through creative partial imitation will no longer occur.
|
||
|
||
If interface monopolies are accepted, other large companies are
|
||
waiting to grab theirs:
|
||
|
||
* Adobe is expected to claim a monopoly on the interfaces of various
|
||
popular application programs, if Lotus ultimately wins the case
|
||
against Borland.
|
||
|
||
* Open Computing magazine reported a Microsoft vice president as
|
||
threatening to sue people who imitate the interface of Windows.
|
||
|
||
Users invest a great deal of time and money in learning to use
|
||
computer interfaces. Far more, in fact, than software developers
|
||
invest in developing *and even implementing* the interfaces. Whoever
|
||
can own an interface, has made its users into captives, and
|
||
misappropriated their investment.
|
||
|
||
To protect our freedom from monopolies like these, a group of
|
||
programmers and users have formed a grass-roots political organization,
|
||
the League for Programming Freedom.
|
||
|
||
The purpose of the League is to oppose monopolistic practices such as
|
||
interface copyright and software patents. The League calls for a return
|
||
to the legal policies of the recent past, in which programmers could
|
||
program freely. The League is not concerned with free software as an
|
||
issue, and is not affiliated with the Free Software Foundation.
|
||
|
||
The League's activities include publicizing the issues, as is being
|
||
done here, and filing friend-of-the-court briefs on behalf of
|
||
defendants sued by monopolists.
|
||
|
||
The League's membership rolls include Donald Knuth, the foremost
|
||
authority on algorithms, John McCarthy, inventor of Lisp, Marvin Minsky,
|
||
founder of the MIT Artificial Intelligence lab, Guy L. Steele, Jr.,
|
||
author of well-known books on Lisp and C, as well as Richard Stallman,
|
||
the developer of GNU CC. Please join and add your name to the list.
|
||
Membership dues in the League are $42 per year for programmers, managers
|
||
and professionals; $10.50 for students; $21 for others.
|
||
|
||
Activist members are especially important, but members who have no
|
||
time to give are also important. Surveys at major ACM conferences have
|
||
indicated a vast majority of attendees agree with the League on both
|
||
issues (interface copyrights and software patents). If just ten percent
|
||
of the programmers who agree with the League join the League, we will
|
||
probably triumph.
|
||
|
||
To join, or for more information, send electronic mail to the
|
||
address `lpf@uunet.uu.net' or write to:
|
||
|
||
League for Programming Freedom
|
||
1 Kendall Square #143
|
||
P.O. Box 9171
|
||
Cambridge, MA 02139
|
||
|
||
In addition to joining the League, here are some suggestions from the
|
||
League for other things you can do to protect your freedom to write
|
||
programs:
|
||
|
||
* Tell your friends and colleagues about this issue and how it
|
||
threatens to ruin the computer industry.
|
||
|
||
* Mention that you are a League member in your `.signature', and
|
||
mention the League's email address for inquiries.
|
||
|
||
* Ask the companies you consider working for or working with to make
|
||
statements against software monopolies, and give preference to
|
||
those that do.
|
||
|
||
* When employers ask you to sign contracts giving them copyright on
|
||
your work, insist on a clause saying they will not claim the
|
||
copyright covers imitating the interface.
|
||
|
||
* When employers ask you to sign contracts giving them patent rights,
|
||
insist on clauses saying they can use these rights only
|
||
defensively. Don't rely on "company policy," since that can
|
||
change at any time; don't rely on an individual executive's
|
||
private word, since that person may be replaced. Get a commitment
|
||
just as binding as the commitment they get from you.
|
||
|
||
* Write to Congress to explain the importance of these issues.
|
||
|
||
House Subcommittee on Intellectual Property
|
||
2137 Rayburn Bldg
|
||
Washington, DC 20515
|
||
|
||
Senate Subcommittee on Patents, Trademarks and Copyrights
|
||
United States Senate
|
||
Washington, DC 20510
|
||
|
||
(These committees have received lots of mail already; let's give
|
||
them even more.)
|
||
|
||
Democracy means nothing if you don't use it. Stand up and be
|
||
counted!
|
||
|