549 lines
20 KiB
C
549 lines
20 KiB
C
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/* Exported functions from emit-rtl.cc
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Copyright (C) 2004-2023 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_EMIT_RTL_H
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#define GCC_EMIT_RTL_H
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class temp_slot;
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typedef class temp_slot *temp_slot_p;
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class predefined_function_abi;
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namespace rtl_ssa { class function_info; }
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/* Information mainlined about RTL representation of incoming arguments. */
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struct GTY(()) incoming_args {
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/* Number of bytes of args popped by function being compiled on its return.
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Zero if no bytes are to be popped.
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May affect compilation of return insn or of function epilogue. */
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poly_int64_pod pops_args;
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/* If function's args have a fixed size, this is that size, in bytes.
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Otherwise, it is -1.
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May affect compilation of return insn or of function epilogue. */
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poly_int64_pod size;
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/* # bytes the prologue should push and pretend that the caller pushed them.
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The prologue must do this, but only if parms can be passed in
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registers. */
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int pretend_args_size;
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/* This is the offset from the arg pointer to the place where the first
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anonymous arg can be found, if there is one. */
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rtx arg_offset_rtx;
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/* Quantities of various kinds of registers
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used for the current function's args. */
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CUMULATIVE_ARGS info;
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/* The arg pointer hard register, or the pseudo into which it was copied. */
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rtx internal_arg_pointer;
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};
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/* Datastructures maintained for currently processed function in RTL form. */
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struct GTY(()) rtl_data {
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void init_stack_alignment ();
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struct expr_status expr;
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struct emit_status emit;
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struct varasm_status varasm;
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struct incoming_args args;
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struct function_subsections subsections;
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struct rtl_eh eh;
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/* The ABI of the function, i.e. the interface it presents to its callers.
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This is the ABI that should be queried to see which registers the
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function needs to save before it uses them.
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Other functions (including those called by this function) might use
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different ABIs. */
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const predefined_function_abi *GTY((skip)) abi;
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rtl_ssa::function_info *GTY((skip)) ssa;
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/* For function.cc */
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/* # of bytes of outgoing arguments. If ACCUMULATE_OUTGOING_ARGS is
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defined, the needed space is pushed by the prologue. */
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poly_int64_pod outgoing_args_size;
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/* If nonzero, an RTL expression for the location at which the current
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function returns its result. If the current function returns its
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result in a register, current_function_return_rtx will always be
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the hard register containing the result. */
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rtx return_rtx;
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/* Vector of initial-value pairs. Each pair consists of a pseudo
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register of approprite mode that stores the initial value a hard
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register REGNO, and that hard register itself. */
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/* ??? This could be a VEC but there is currently no way to define an
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opaque VEC type. */
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struct initial_value_struct *hard_reg_initial_vals;
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/* A variable living at the top of the frame that holds a known value.
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Used for detecting stack clobbers. */
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tree stack_protect_guard;
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/* The __stack_chk_guard variable or expression holding the stack
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protector canary value. */
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tree stack_protect_guard_decl;
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/* List (chain of INSN_LIST) of labels heading the current handlers for
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nonlocal gotos. */
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rtx_insn_list *x_nonlocal_goto_handler_labels;
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/* Label that will go on function epilogue.
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Jumping to this label serves as a "return" instruction
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on machines which require execution of the epilogue on all returns. */
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rtx_code_label *x_return_label;
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/* Label that will go on the end of function epilogue.
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Jumping to this label serves as a "naked return" instruction
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on machines which require execution of the epilogue on all returns. */
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rtx_code_label *x_naked_return_label;
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/* List (chain of EXPR_LISTs) of all stack slots in this function.
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Made for the sake of unshare_all_rtl. */
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vec<rtx, va_gc> *x_stack_slot_list;
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/* List of empty areas in the stack frame. */
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class frame_space *frame_space_list;
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/* Place after which to insert the tail_recursion_label if we need one. */
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rtx_note *x_stack_check_probe_note;
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/* Location at which to save the argument pointer if it will need to be
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referenced. There are two cases where this is done: if nonlocal gotos
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exist, or if vars stored at an offset from the argument pointer will be
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needed by inner routines. */
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rtx x_arg_pointer_save_area;
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/* Dynamic Realign Argument Pointer used for realigning stack. */
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rtx drap_reg;
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/* Offset to end of allocated area of stack frame.
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If stack grows down, this is the address of the last stack slot allocated.
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If stack grows up, this is the address for the next slot. */
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poly_int64_pod x_frame_offset;
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/* Insn after which register parms and SAVE_EXPRs are born, if nonopt. */
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rtx_insn *x_parm_birth_insn;
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/* List of all used temporaries allocated, by level. */
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vec<temp_slot_p, va_gc> *x_used_temp_slots;
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/* List of available temp slots. */
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class temp_slot *x_avail_temp_slots;
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/* Current nesting level for temporaries. */
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int x_temp_slot_level;
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/* The largest alignment needed on the stack, including requirement
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for outgoing stack alignment. */
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unsigned int stack_alignment_needed;
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/* Preferred alignment of the end of stack frame, which is preferred
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to call other functions. */
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unsigned int preferred_stack_boundary;
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/* The minimum alignment of parameter stack. */
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unsigned int parm_stack_boundary;
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/* The largest alignment of slot allocated on the stack. */
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unsigned int max_used_stack_slot_alignment;
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/* The stack alignment estimated before reload, with consideration of
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following factors:
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1. Alignment of local stack variables (max_used_stack_slot_alignment)
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2. Alignment requirement to call other functions
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(preferred_stack_boundary)
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3. Alignment of non-local stack variables but might be spilled in
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local stack. */
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unsigned int stack_alignment_estimated;
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/* How many NOP insns to place at each function entry by default. */
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unsigned short patch_area_size;
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/* How far the real asm entry point is into this area. */
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unsigned short patch_area_entry;
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/* For reorg. */
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/* Nonzero if function being compiled called builtin_return_addr or
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builtin_frame_address with nonzero count. */
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bool accesses_prior_frames;
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/* Nonzero if the function calls __builtin_eh_return. */
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bool calls_eh_return;
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/* Nonzero if function saves all registers, e.g. if it has a nonlocal
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label that can reach the exit block via non-exceptional paths. */
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bool saves_all_registers;
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/* Nonzero if function being compiled has nonlocal gotos to parent
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function. */
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bool has_nonlocal_goto;
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/* Nonzero if function being compiled has an asm statement. */
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bool has_asm_statement;
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/* This bit is used by the exception handling logic. It is set if all
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calls (if any) are sibling calls. Such functions do not have to
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have EH tables generated, as they cannot throw. A call to such a
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function, however, should be treated as throwing if any of its callees
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can throw. */
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bool all_throwers_are_sibcalls;
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/* Nonzero if stack limit checking should be enabled in the current
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function. */
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bool limit_stack;
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/* Nonzero if profiling code should be generated. */
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bool profile;
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/* Nonzero if the current function uses the constant pool. */
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bool uses_const_pool;
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/* Nonzero if the current function uses pic_offset_table_rtx. */
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bool uses_pic_offset_table;
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/* Nonzero if the current function needs an lsda for exception handling. */
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bool uses_eh_lsda;
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/* Set when the tail call has been produced. */
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bool tail_call_emit;
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/* Nonzero if code to initialize arg_pointer_save_area has been emitted. */
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bool arg_pointer_save_area_init;
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/* Nonzero if current function must be given a frame pointer.
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Set in reload1.cc or lra-eliminations.cc if anything is allocated
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on the stack there. */
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bool frame_pointer_needed;
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/* When set, expand should optimize for speed. */
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bool maybe_hot_insn_p;
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/* Nonzero if function stack realignment is needed. This flag may be
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set twice: before and after reload. It is set before reload wrt
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stack alignment estimation before reload. It will be changed after
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reload if by then criteria of stack realignment is different.
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The value set after reload is the accurate one and is finalized. */
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bool stack_realign_needed;
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/* Nonzero if function stack realignment is tried. This flag is set
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only once before reload. It affects register elimination. This
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is used to generate DWARF debug info for stack variables. */
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bool stack_realign_tried;
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/* Nonzero if function being compiled needs dynamic realigned
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argument pointer (drap) if stack needs realigning. */
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bool need_drap;
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/* Nonzero if function stack realignment estimation is done, namely
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stack_realign_needed flag has been set before reload wrt estimated
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stack alignment info. */
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bool stack_realign_processed;
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/* Nonzero if function stack realignment has been finalized, namely
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stack_realign_needed flag has been set and finalized after reload. */
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bool stack_realign_finalized;
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/* True if dbr_schedule has already been called for this function. */
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bool dbr_scheduled_p;
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/* True if current function cannot throw. Unlike
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TREE_NOTHROW (current_function_decl) it is set even for overwritable
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function where currently compiled version of it is nothrow. */
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bool nothrow;
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/* True if we performed shrink-wrapping for the current function. */
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bool shrink_wrapped;
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/* True if we performed shrink-wrapping for separate components for
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the current function. */
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bool shrink_wrapped_separate;
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/* Nonzero if function being compiled doesn't modify the stack pointer
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(ignoring the prologue and epilogue). This is only valid after
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pass_stack_ptr_mod has run. */
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bool sp_is_unchanging;
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/* True if the stack pointer is clobbered by asm statement. */
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bool sp_is_clobbered_by_asm;
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/* Nonzero if function being compiled doesn't contain any calls
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(ignoring the prologue and epilogue). This is set prior to
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register allocation in IRA and is valid for the remaining
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compiler passes. */
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bool is_leaf;
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/* Nonzero if the function being compiled is a leaf function which only
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uses leaf registers. This is valid after reload (specifically after
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sched2) and is useful only if the port defines LEAF_REGISTERS. */
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bool uses_only_leaf_regs;
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/* Nonzero if the function being compiled has undergone hot/cold partitioning
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(under flag_reorder_blocks_and_partition) and has at least one cold
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block. */
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bool has_bb_partition;
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/* Nonzero if the function being compiled has completed the bb reordering
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pass. */
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bool bb_reorder_complete;
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/* Like regs_ever_live, but 1 if a reg is set or clobbered from an
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asm. Unlike regs_ever_live, elements of this array corresponding
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to eliminable regs (like the frame pointer) are set if an asm
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sets them. */
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HARD_REG_SET asm_clobbers;
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/* All hard registers that need to be zeroed at the return of the routine. */
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HARD_REG_SET must_be_zero_on_return;
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/* The highest address seen during shorten_branches. */
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int max_insn_address;
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};
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#define return_label (crtl->x_return_label)
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#define naked_return_label (crtl->x_naked_return_label)
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#define stack_slot_list (crtl->x_stack_slot_list)
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#define parm_birth_insn (crtl->x_parm_birth_insn)
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#define frame_offset (crtl->x_frame_offset)
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#define stack_check_probe_note (crtl->x_stack_check_probe_note)
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#define arg_pointer_save_area (crtl->x_arg_pointer_save_area)
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#define used_temp_slots (crtl->x_used_temp_slots)
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#define avail_temp_slots (crtl->x_avail_temp_slots)
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#define temp_slot_level (crtl->x_temp_slot_level)
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#define nonlocal_goto_handler_labels (crtl->x_nonlocal_goto_handler_labels)
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#define frame_pointer_needed (crtl->frame_pointer_needed)
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#define stack_realign_fp (crtl->stack_realign_needed && !crtl->need_drap)
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#define stack_realign_drap (crtl->stack_realign_needed && crtl->need_drap)
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extern GTY(()) struct rtl_data x_rtl;
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/* Accessor to RTL datastructures. We keep them statically allocated now since
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we never keep multiple functions. For threaded compiler we might however
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want to do differently. */
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#define crtl (&x_rtl)
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/* Return whether two MEM_ATTRs are equal. */
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bool mem_attrs_eq_p (const class mem_attrs *, const class mem_attrs *);
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/* Set the alias set of MEM to SET. */
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extern void set_mem_alias_set (rtx, alias_set_type);
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/* Set the alignment of MEM to ALIGN bits. */
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extern void set_mem_align (rtx, unsigned int);
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/* Set the address space of MEM to ADDRSPACE. */
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extern void set_mem_addr_space (rtx, addr_space_t);
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/* Set the expr for MEM to EXPR. */
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extern void set_mem_expr (rtx, tree);
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/* Set the offset for MEM to OFFSET. */
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extern void set_mem_offset (rtx, poly_int64);
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/* Clear the offset recorded for MEM. */
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extern void clear_mem_offset (rtx);
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/* Set the size for MEM to SIZE. */
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extern void set_mem_size (rtx, poly_int64);
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/* Clear the size recorded for MEM. */
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extern void clear_mem_size (rtx);
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/* Set the attributes for MEM appropriate for a spill slot. */
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extern void set_mem_attrs_for_spill (rtx);
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extern tree get_spill_slot_decl (bool);
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/* Return a memory reference like MEMREF, but with its address changed to
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ADDR. The caller is asserting that the actual piece of memory pointed
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to is the same, just the form of the address is being changed, such as
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by putting something into a register. */
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extern rtx replace_equiv_address (rtx, rtx, bool = false);
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/* Likewise, but the reference is not required to be valid. */
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extern rtx replace_equiv_address_nv (rtx, rtx, bool = false);
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extern rtx gen_blockage (void);
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extern rtvec gen_rtvec (int, ...);
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extern rtx copy_insn_1 (rtx);
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extern rtx copy_insn (rtx);
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extern rtx_insn *copy_delay_slot_insn (rtx_insn *);
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extern rtx gen_int_mode (poly_int64, machine_mode);
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extern rtx_insn *emit_copy_of_insn_after (rtx_insn *, rtx_insn *);
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extern void set_reg_attrs_from_value (rtx, rtx);
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extern void set_reg_attrs_for_parm (rtx, rtx);
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extern void set_reg_attrs_for_decl_rtl (tree t, rtx x);
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extern void adjust_reg_mode (rtx, machine_mode);
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extern int mem_expr_equal_p (const_tree, const_tree);
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extern rtx gen_int_shift_amount (machine_mode, poly_int64);
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extern bool need_atomic_barrier_p (enum memmodel, bool);
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/* Return the current sequence. */
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inline struct sequence_stack *
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get_current_sequence (void)
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{
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return &crtl->emit.seq;
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}
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/* Return the outermost sequence. */
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inline struct sequence_stack *
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get_topmost_sequence (void)
|
||
|
{
|
||
|
struct sequence_stack *seq, *top;
|
||
|
|
||
|
seq = get_current_sequence ();
|
||
|
do
|
||
|
{
|
||
|
top = seq;
|
||
|
seq = seq->next;
|
||
|
} while (seq);
|
||
|
return top;
|
||
|
}
|
||
|
|
||
|
/* Return the first insn of the current sequence or current function. */
|
||
|
|
||
|
inline rtx_insn *
|
||
|
get_insns (void)
|
||
|
{
|
||
|
return get_current_sequence ()->first;
|
||
|
}
|
||
|
|
||
|
/* Specify a new insn as the first in the chain. */
|
||
|
|
||
|
inline void
|
||
|
set_first_insn (rtx_insn *insn)
|
||
|
{
|
||
|
gcc_checking_assert (!insn || !PREV_INSN (insn));
|
||
|
get_current_sequence ()->first = insn;
|
||
|
}
|
||
|
|
||
|
/* Return the last insn emitted in current sequence or current function. */
|
||
|
|
||
|
inline rtx_insn *
|
||
|
get_last_insn (void)
|
||
|
{
|
||
|
return get_current_sequence ()->last;
|
||
|
}
|
||
|
|
||
|
/* Specify a new insn as the last in the chain. */
|
||
|
|
||
|
inline void
|
||
|
set_last_insn (rtx_insn *insn)
|
||
|
{
|
||
|
gcc_checking_assert (!insn || !NEXT_INSN (insn));
|
||
|
get_current_sequence ()->last = insn;
|
||
|
}
|
||
|
|
||
|
/* Return a number larger than any instruction's uid in this function. */
|
||
|
|
||
|
inline int
|
||
|
get_max_uid (void)
|
||
|
{
|
||
|
return crtl->emit.x_cur_insn_uid;
|
||
|
}
|
||
|
|
||
|
extern bool valid_for_const_vector_p (machine_mode, rtx);
|
||
|
extern rtx gen_const_vec_duplicate (machine_mode, rtx);
|
||
|
extern rtx gen_vec_duplicate (machine_mode, rtx);
|
||
|
|
||
|
extern rtx gen_const_vec_series (machine_mode, rtx, rtx);
|
||
|
extern rtx gen_vec_series (machine_mode, rtx, rtx);
|
||
|
|
||
|
extern void set_decl_incoming_rtl (tree, rtx, bool);
|
||
|
|
||
|
/* Return a memory reference like MEMREF, but with its mode changed
|
||
|
to MODE and its address changed to ADDR.
|
||
|
(VOIDmode means don't change the mode.
|
||
|
NULL for ADDR means don't change the address.) */
|
||
|
extern rtx change_address (rtx, machine_mode, rtx);
|
||
|
|
||
|
/* Return a memory reference like MEMREF, but with its mode changed
|
||
|
to MODE and its address offset by OFFSET bytes. */
|
||
|
#define adjust_address(MEMREF, MODE, OFFSET) \
|
||
|
adjust_address_1 (MEMREF, MODE, OFFSET, 1, 1, 0, 0)
|
||
|
|
||
|
/* Likewise, but the reference is not required to be valid. */
|
||
|
#define adjust_address_nv(MEMREF, MODE, OFFSET) \
|
||
|
adjust_address_1 (MEMREF, MODE, OFFSET, 0, 1, 0, 0)
|
||
|
|
||
|
/* Return a memory reference like MEMREF, but with its mode changed
|
||
|
to MODE and its address offset by OFFSET bytes. Assume that it's
|
||
|
for a bitfield and conservatively drop the underlying object if we
|
||
|
cannot be sure to stay within its bounds. */
|
||
|
#define adjust_bitfield_address(MEMREF, MODE, OFFSET) \
|
||
|
adjust_address_1 (MEMREF, MODE, OFFSET, 1, 1, 1, 0)
|
||
|
|
||
|
/* As for adjust_bitfield_address, but specify that the width of
|
||
|
BLKmode accesses is SIZE bytes. */
|
||
|
#define adjust_bitfield_address_size(MEMREF, MODE, OFFSET, SIZE) \
|
||
|
adjust_address_1 (MEMREF, MODE, OFFSET, 1, 1, 1, SIZE)
|
||
|
|
||
|
/* Likewise, but the reference is not required to be valid. */
|
||
|
#define adjust_bitfield_address_nv(MEMREF, MODE, OFFSET) \
|
||
|
adjust_address_1 (MEMREF, MODE, OFFSET, 0, 1, 1, 0)
|
||
|
|
||
|
/* Return a memory reference like MEMREF, but with its mode changed
|
||
|
to MODE and its address changed to ADDR, which is assumed to be
|
||
|
increased by OFFSET bytes from MEMREF. */
|
||
|
#define adjust_automodify_address(MEMREF, MODE, ADDR, OFFSET) \
|
||
|
adjust_automodify_address_1 (MEMREF, MODE, ADDR, OFFSET, 1)
|
||
|
|
||
|
/* Likewise, but the reference is not required to be valid. */
|
||
|
#define adjust_automodify_address_nv(MEMREF, MODE, ADDR, OFFSET) \
|
||
|
adjust_automodify_address_1 (MEMREF, MODE, ADDR, OFFSET, 0)
|
||
|
|
||
|
extern rtx adjust_address_1 (rtx, machine_mode, poly_int64, int, int,
|
||
|
int, poly_int64);
|
||
|
extern rtx adjust_automodify_address_1 (rtx, machine_mode, rtx,
|
||
|
poly_int64, int);
|
||
|
|
||
|
/* Return a memory reference like MEMREF, but whose address is changed by
|
||
|
adding OFFSET, an RTX, to it. POW2 is the highest power of two factor
|
||
|
known to be in OFFSET (possibly 1). */
|
||
|
extern rtx offset_address (rtx, rtx, unsigned HOST_WIDE_INT);
|
||
|
|
||
|
/* Given REF, a MEM, and T, either the type of X or the expression
|
||
|
corresponding to REF, set the memory attributes. OBJECTP is nonzero
|
||
|
if we are making a new object of this type. */
|
||
|
extern void set_mem_attributes (rtx, tree, int);
|
||
|
|
||
|
/* Similar, except that BITPOS has not yet been applied to REF, so if
|
||
|
we alter MEM_OFFSET according to T then we should subtract BITPOS
|
||
|
expecting that it'll be added back in later. */
|
||
|
extern void set_mem_attributes_minus_bitpos (rtx, tree, int, poly_int64);
|
||
|
|
||
|
/* Return OFFSET if XEXP (MEM, 0) - OFFSET is known to be ALIGN
|
||
|
bits aligned for 0 <= OFFSET < ALIGN / BITS_PER_UNIT, or
|
||
|
-1 if not known. */
|
||
|
extern int get_mem_align_offset (rtx, unsigned int);
|
||
|
|
||
|
/* Return a memory reference like MEMREF, but with its mode widened to
|
||
|
MODE and adjusted by OFFSET. */
|
||
|
extern rtx widen_memory_access (rtx, machine_mode, poly_int64);
|
||
|
|
||
|
extern void maybe_set_max_label_num (rtx_code_label *x);
|
||
|
|
||
|
#endif /* GCC_EMIT_RTL_H */
|