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321 lines
11 KiB
C++
321 lines
11 KiB
C++
/* Information about function binary interfaces.
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Copyright (C) 2019-2023 Free Software Foundation, Inc.
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This file is part of GCC
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GCC is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 3, or (at your option) any later
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version.
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GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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along with GCC; see the file COPYING3. If not see
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<http://www.gnu.org/licenses/>. */
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#ifndef GCC_FUNCTION_ABI_H
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#define GCC_FUNCTION_ABI_H
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/* Most targets use the same ABI for all functions in a translation
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unit, but some targets support interoperability between several ABIs.
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Each such ABI has a unique 0-based identifier, with 0 always being
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the default choice of ABI.
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NUM_ABI_IDS is the maximum number of such ABIs that GCC can handle at once.
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A bitfield with this number of bits can represent any combinaion of the
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supported ABIs. */
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const size_t NUM_ABI_IDS = 8;
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/* Information about one of the target's predefined ABIs. */
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class predefined_function_abi
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{
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public:
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/* A target-specific identifier for this ABI. The value must be in
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the range [0, NUM_ABI_IDS - 1]. */
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unsigned int id () const { return m_id; }
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/* True if this ABI has been initialized. */
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bool initialized_p () const { return m_initialized; }
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/* Return true if a function call is allowed to alter every bit of
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register REGNO, so that the register contains an arbitrary value
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on return. If so, the register cannot hold any part of a value
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that is live across a call. */
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bool
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clobbers_full_reg_p (unsigned int regno) const
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{
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return TEST_HARD_REG_BIT (m_full_reg_clobbers, regno);
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}
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/* Return true if a function call is allowed to alter some or all bits
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of register REGNO.
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This is true whenever clobbers_full_reg_p (REGNO) is true. It is
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also true if, for example, the ABI says that a call must preserve the
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low 32 or 64 bits of REGNO, but can clobber the upper bits of REGNO.
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In the latter case, it is possible for REGNO to hold values that
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are live across a call, provided that the value occupies only the
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call-preserved part of the register. */
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bool
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clobbers_at_least_part_of_reg_p (unsigned int regno) const
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{
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return TEST_HARD_REG_BIT (m_full_and_partial_reg_clobbers, regno);
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}
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/* Return true if a function call is allowed to clobber at least part
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of (reg:MODE REGNO). If so, it is not possible for the register
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as a whole to be live across a call. */
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bool
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clobbers_reg_p (machine_mode mode, unsigned int regno) const
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{
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return overlaps_hard_reg_set_p (m_mode_clobbers[mode], mode, regno);
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}
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/* Return the set of registers that a function call is allowed to
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alter completely, so that the registers contain arbitrary values
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on return. This doesn't include registers that a call can only
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partly clobber (as per TARGET_HARD_REGNO_CALL_PART_CLOBBERED).
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These registers cannot hold any part of a value that is live across
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a call. */
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HARD_REG_SET full_reg_clobbers () const { return m_full_reg_clobbers; }
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/* Return the set of registers that a function call is allowed to alter
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to some degree. For example, if an ABI says that a call must preserve
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the low 32 or 64 bits of a register R, but can clobber the upper bits
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of R, R would be in this set but not in full_reg_clobbers ().
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This set is a superset of full_reg_clobbers (). It is possible for a
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register in full_and_partial_reg_clobbers () & ~full_reg_clobbers ()
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to contain values that are live across a call, provided that the live
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value only occupies the call-preserved part of the register. */
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HARD_REG_SET
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full_and_partial_reg_clobbers () const
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{
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return m_full_and_partial_reg_clobbers;
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}
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/* Return the set of registers that cannot be used to hold a value of
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mode MODE across a function call. That is:
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(reg:REGNO MODE)
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might be clobbered by a call whenever:
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overlaps_hard_reg_set (mode_clobbers (MODE), MODE, REGNO)
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In allocation terms, the registers in the returned set conflict
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with any value of mode MODE that is live across a call. */
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HARD_REG_SET
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mode_clobbers (machine_mode mode) const
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{
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return m_mode_clobbers[mode];
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}
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void initialize (unsigned int, const_hard_reg_set);
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void add_full_reg_clobber (unsigned int);
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private:
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unsigned int m_id : NUM_ABI_IDS;
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unsigned int m_initialized : 1;
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HARD_REG_SET m_full_reg_clobbers;
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HARD_REG_SET m_full_and_partial_reg_clobbers;
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HARD_REG_SET m_mode_clobbers[NUM_MACHINE_MODES];
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};
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/* Describes either a predefined ABI or the ABI of a particular function.
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In the latter case, the ABI might make use of extra function-specific
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information, such as for -fipa-ra. */
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class function_abi
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{
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public:
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/* Initialize the structure for a general function with the given ABI. */
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function_abi (const predefined_function_abi &base_abi)
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: m_base_abi (&base_abi),
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m_mask (base_abi.full_and_partial_reg_clobbers ()) {}
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/* Initialize the structure for a function that has the given ABI and
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that is known not to clobber registers outside MASK. */
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function_abi (const predefined_function_abi &base_abi,
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const_hard_reg_set mask)
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: m_base_abi (&base_abi), m_mask (mask) {}
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/* The predefined ABI from which this ABI is derived. */
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const predefined_function_abi &base_abi () const { return *m_base_abi; }
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/* The target-specific identifier of the predefined ABI. */
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unsigned int id () const { return m_base_abi->id (); }
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/* See the corresponding predefined_function_abi functions for
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details about the following functions. */
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HARD_REG_SET
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full_reg_clobbers () const
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{
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return m_mask & m_base_abi->full_reg_clobbers ();
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}
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HARD_REG_SET
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full_and_partial_reg_clobbers () const
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{
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return m_mask & m_base_abi->full_and_partial_reg_clobbers ();
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}
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HARD_REG_SET
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mode_clobbers (machine_mode mode) const
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{
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return m_mask & m_base_abi->mode_clobbers (mode);
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}
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bool
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clobbers_full_reg_p (unsigned int regno) const
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{
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return (TEST_HARD_REG_BIT (m_mask, regno)
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& m_base_abi->clobbers_full_reg_p (regno));
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}
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bool
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clobbers_at_least_part_of_reg_p (unsigned int regno) const
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{
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return (TEST_HARD_REG_BIT (m_mask, regno)
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& m_base_abi->clobbers_at_least_part_of_reg_p (regno));
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}
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bool
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clobbers_reg_p (machine_mode mode, unsigned int regno) const
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{
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return overlaps_hard_reg_set_p (mode_clobbers (mode), mode, regno);
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}
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bool
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operator== (const function_abi &other) const
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{
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return m_base_abi == other.m_base_abi && m_mask == other.m_mask;
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}
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bool
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operator!= (const function_abi &other) const
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{
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return !operator== (other);
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}
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protected:
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const predefined_function_abi *m_base_abi;
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HARD_REG_SET m_mask;
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};
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/* This class collects information about the ABIs of functions that are
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called in a particular region of code. It is mostly intended to be
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used as a local variable during an IR walk. */
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class function_abi_aggregator
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{
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public:
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function_abi_aggregator () : m_abi_clobbers () {}
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/* Record that the code region calls a function with the given ABI. */
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void
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note_callee_abi (const function_abi &abi)
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{
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m_abi_clobbers[abi.id ()] |= abi.full_and_partial_reg_clobbers ();
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}
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HARD_REG_SET caller_save_regs (const function_abi &) const;
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private:
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HARD_REG_SET m_abi_clobbers[NUM_ABI_IDS];
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};
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struct target_function_abi_info
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{
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/* An array of all the target ABIs that are available in this
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translation unit. Not all entries are used for all targets,
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but the structures are relatively small, and using a fixed-size
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array avoids extra indirection.
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There are various ways of getting an ABI descriptor:
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* fndecl_abi (FNDECL) is the ABI of function FNDECL.
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* fntype_abi (FNTYPE) is the ABI of a function with type FNTYPE.
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* crtl->abi is the ABI of the function that we are currently
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compiling to rtl.
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* insn_callee_abi (INSN) is the ABI used by the target of call insn INSN.
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* eh_edge_abi is the "ABI" used when taking an EH edge from an
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exception-throwing statement to an exception handler. Catching
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exceptions from calls can be treated as an abnormal return from
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those calls, and this ABI therefore describes the ABI of functions
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on such an abnormal return. Statements that throw non-call
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exceptions can be treated as being implicitly wrapped in a call
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that has such an abnormal return.
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At present, no target needs to support more than one EH ABI.
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* function_abis[N] is the ABI with identifier N. This can be useful
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when referring back to ABIs that have been collected by number in
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a bitmask, such as after walking function calls in a particular
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region of code.
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* default_function_abi refers specifically to the target's default
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choice of ABI, regardless of which (if any) functions actually
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use it. This ABI and data derived from it do *not* provide
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globally conservatively-correct information, so it is only
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useful in very specific circumstances. */
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predefined_function_abi x_function_abis[NUM_ABI_IDS];
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};
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extern target_function_abi_info default_target_function_abi_info;
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#if SWITCHABLE_TARGET
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extern target_function_abi_info *this_target_function_abi_info;
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#else
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#define this_target_function_abi_info (&default_target_function_abi_info)
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#endif
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/* See the comment above x_function_abis for when these macros should be used.
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At present, eh_edge_abi is always the default ABI, but that could change
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in future if a target needs it to. */
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#define function_abis \
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(this_target_function_abi_info->x_function_abis)
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#define default_function_abi \
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(this_target_function_abi_info->x_function_abis[0])
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#define eh_edge_abi default_function_abi
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extern HARD_REG_SET call_clobbers_in_region (unsigned int, const_hard_reg_set,
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machine_mode mode);
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/* Return true if (reg:MODE REGNO) might be clobbered by one of the
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calls in a region described by ABIS and MASK, where:
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* Bit ID of ABIS is set if the region contains a call with
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function_abi identifier ID.
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* MASK contains all the registers that are fully or partially
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clobbered by calls in the region.
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This is not quite as accurate as testing each individual call,
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but it's a close and conservatively-correct approximation.
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It's much better for some targets than:
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overlaps_hard_reg_set_p (MASK, MODE, REGNO). */
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inline bool
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call_clobbered_in_region_p (unsigned int abis, const_hard_reg_set mask,
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machine_mode mode, unsigned int regno)
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{
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HARD_REG_SET clobbers = call_clobbers_in_region (abis, mask, mode);
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return overlaps_hard_reg_set_p (clobbers, mode, regno);
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}
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extern const predefined_function_abi &fntype_abi (const_tree);
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extern function_abi fndecl_abi (const_tree);
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extern function_abi insn_callee_abi (const rtx_insn *);
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extern function_abi expr_callee_abi (const_tree);
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#endif
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