146 lines
4.3 KiB
C++
146 lines
4.3 KiB
C++
/* A class for building vector tree constants.
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Copyright (C) 2017-2023 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_TREE_VECTOR_BUILDER_H
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#define GCC_TREE_VECTOR_BUILDER_H
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#include "vector-builder.h"
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/* This class is used to build VECTOR_CSTs from a sequence of elements.
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See vector_builder for more details. */
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class tree_vector_builder : public vector_builder<tree, tree,
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tree_vector_builder>
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{
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typedef vector_builder<tree, tree, tree_vector_builder> parent;
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friend class vector_builder<tree, tree, tree_vector_builder>;
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public:
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tree_vector_builder () : m_type (0) {}
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tree_vector_builder (tree, unsigned int, unsigned int);
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tree build ();
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tree type () const { return m_type; }
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void new_vector (tree, unsigned int, unsigned int);
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private:
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bool equal_p (const_tree, const_tree) const;
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bool allow_steps_p () const;
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bool integral_p (const_tree) const;
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wide_int step (const_tree, const_tree) const;
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tree apply_step (tree, unsigned int, const wide_int &) const;
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bool can_elide_p (const_tree) const;
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void note_representative (tree *, tree);
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static poly_uint64 shape_nelts (const_tree t)
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{ return TYPE_VECTOR_SUBPARTS (t); }
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static poly_uint64 nelts_of (const_tree t)
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{ return VECTOR_CST_NELTS (t); }
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static unsigned int npatterns_of (const_tree t)
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{ return VECTOR_CST_NPATTERNS (t); }
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static unsigned int nelts_per_pattern_of (const_tree t)
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{ return VECTOR_CST_NELTS_PER_PATTERN (t); }
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tree m_type;
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};
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/* Create a new builder for a vector of type TYPE. Initially encode the
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value as NPATTERNS interleaved patterns with NELTS_PER_PATTERN elements
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each. */
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inline
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tree_vector_builder::tree_vector_builder (tree type, unsigned int npatterns,
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unsigned int nelts_per_pattern)
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{
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new_vector (type, npatterns, nelts_per_pattern);
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}
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/* Start building a new vector of type TYPE. Initially encode the value
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as NPATTERNS interleaved patterns with NELTS_PER_PATTERN elements each. */
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inline void
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tree_vector_builder::new_vector (tree type, unsigned int npatterns,
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unsigned int nelts_per_pattern)
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{
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m_type = type;
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parent::new_vector (TYPE_VECTOR_SUBPARTS (type), npatterns,
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nelts_per_pattern);
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}
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/* Return true if elements I1 and I2 are equal. */
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inline bool
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tree_vector_builder::equal_p (const_tree elt1, const_tree elt2) const
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{
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return operand_equal_p (elt1, elt2, OEP_BITWISE);
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}
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/* Return true if a stepped representation is OK. We don't allow
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linear series for anything other than integers, to avoid problems
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with rounding. */
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inline bool
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tree_vector_builder::allow_steps_p () const
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{
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return INTEGRAL_TYPE_P (TREE_TYPE (m_type));
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}
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/* Return true if ELT can be interpreted as an integer. */
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inline bool
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tree_vector_builder::integral_p (const_tree elt) const
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{
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return TREE_CODE (elt) == INTEGER_CST;
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}
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/* Return the value of element ELT2 minus the value of element ELT1.
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Both elements are known to be INTEGER_CSTs. */
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inline wide_int
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tree_vector_builder::step (const_tree elt1, const_tree elt2) const
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{
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return wi::to_wide (elt2) - wi::to_wide (elt1);
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}
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/* Return true if we can drop element ELT, even if the retained elements
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are different. Return false if this would mean losing overflow
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information. */
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inline bool
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tree_vector_builder::can_elide_p (const_tree elt) const
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{
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return !CONSTANT_CLASS_P (elt) || !TREE_OVERFLOW (elt);
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}
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/* Record that ELT2 is being elided, given that ELT1_PTR points to the last
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encoded element for the containing pattern. */
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inline void
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tree_vector_builder::note_representative (tree *elt1_ptr, tree elt2)
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{
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if (CONSTANT_CLASS_P (elt2) && TREE_OVERFLOW (elt2))
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{
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gcc_assert (operand_equal_p (*elt1_ptr, elt2, 0));
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if (!TREE_OVERFLOW (elt2))
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*elt1_ptr = elt2;
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}
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}
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#endif
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