d: Move private functions out of ExprVisitor into local statics
None of these functions need access to the context pointer of the visitor class, so have been made free standing. gcc/d/ChangeLog: * expr.cc (needs_postblit): Move out of ExprVisitor as a static function. Update all callers. (needs_dtor): Likewise. (lvalue_p): Likewise. (binary_op): Likewise. (binop_assignment): Likewise.
This commit is contained in:
parent
561a19c301
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dc60d67674
351
gcc/d/expr.cc
351
gcc/d/expr.cc
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@ -43,6 +43,174 @@ along with GCC; see the file COPYING3. If not see
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#include "d-tree.h"
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/* Determine if type T is a struct that has a postblit. */
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static bool
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needs_postblit (Type *t)
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{
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t = t->baseElemOf ();
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if (TypeStruct *ts = t->isTypeStruct ())
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{
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if (ts->sym->postblit)
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return true;
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}
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return false;
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}
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/* Determine if type T is a struct that has a destructor. */
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static bool
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needs_dtor (Type *t)
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{
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t = t->baseElemOf ();
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if (TypeStruct *ts = t->isTypeStruct ())
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{
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if (ts->sym->dtor)
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return true;
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}
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return false;
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}
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/* Determine if expression E is a suitable lvalue. */
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static bool
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lvalue_p (Expression *e)
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{
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SliceExp *se = e->isSliceExp ();
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if (se != NULL && se->e1->isLvalue ())
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return true;
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CastExp *ce = e->isCastExp ();
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if (ce != NULL && ce->e1->isLvalue ())
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return true;
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return (e->op != TOKslice && e->isLvalue ());
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}
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/* Build an expression of code CODE, data type TYPE, and operands ARG0 and
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ARG1. Perform relevant conversions needed for correct code operations. */
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static tree
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binary_op (tree_code code, tree type, tree arg0, tree arg1)
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{
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tree t0 = TREE_TYPE (arg0);
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tree t1 = TREE_TYPE (arg1);
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tree ret = NULL_TREE;
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bool unsignedp = TYPE_UNSIGNED (t0) || TYPE_UNSIGNED (t1);
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/* Deal with float mod expressions immediately. */
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if (code == FLOAT_MOD_EXPR)
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return build_float_modulus (type, arg0, arg1);
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if (POINTER_TYPE_P (t0) && INTEGRAL_TYPE_P (t1))
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return build_nop (type, build_offset_op (code, arg0, arg1));
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if (INTEGRAL_TYPE_P (t0) && POINTER_TYPE_P (t1))
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return build_nop (type, build_offset_op (code, arg1, arg0));
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if (POINTER_TYPE_P (t0) && POINTER_TYPE_P (t1))
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{
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gcc_assert (code == MINUS_EXPR);
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tree ptrtype = lang_hooks.types.type_for_mode (ptr_mode, 0);
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/* POINTER_DIFF_EXPR requires a signed integer type of the same size as
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pointers. If some platform cannot provide that, or has a larger
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ptrdiff_type to support differences larger than half the address
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space, cast the pointers to some larger integer type and do the
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computations in that type. */
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if (TYPE_PRECISION (ptrtype) > TYPE_PRECISION (t0))
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ret = fold_build2 (MINUS_EXPR, ptrtype,
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d_convert (ptrtype, arg0),
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d_convert (ptrtype, arg1));
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else
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ret = fold_build2 (POINTER_DIFF_EXPR, ptrtype, arg0, arg1);
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}
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else if (INTEGRAL_TYPE_P (type) && (TYPE_UNSIGNED (type) != unsignedp))
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{
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tree inttype = (unsignedp)
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? d_unsigned_type (type) : d_signed_type (type);
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ret = fold_build2 (code, inttype, arg0, arg1);
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}
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else
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{
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/* If the operation needs excess precision. */
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tree eptype = excess_precision_type (type);
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if (eptype != NULL_TREE)
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{
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arg0 = d_convert (eptype, arg0);
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arg1 = d_convert (eptype, arg1);
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}
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else
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{
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/* Front-end does not do this conversion and GCC does not
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always do it right. */
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if (COMPLEX_FLOAT_TYPE_P (t0) && !COMPLEX_FLOAT_TYPE_P (t1))
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arg1 = d_convert (t0, arg1);
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else if (COMPLEX_FLOAT_TYPE_P (t1) && !COMPLEX_FLOAT_TYPE_P (t0))
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arg0 = d_convert (t1, arg0);
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eptype = type;
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}
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ret = fold_build2 (code, eptype, arg0, arg1);
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}
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return d_convert (type, ret);
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}
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/* Build a binary expression of code CODE, assigning the result into E1. */
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static tree
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binop_assignment (tree_code code, Expression *e1, Expression *e2)
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{
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/* Skip casts for lhs assignment. */
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Expression *e1b = e1;
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while (e1b->op == TOKcast)
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{
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CastExp *ce = e1b->isCastExp ();
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gcc_assert (same_type_p (ce->type, ce->to));
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e1b = ce->e1;
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}
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/* Stabilize LHS for assignment. */
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tree lhs = build_expr (e1b);
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tree lexpr = stabilize_expr (&lhs);
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/* The LHS expression could be an assignment, to which its operation gets
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lost during gimplification. */
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if (TREE_CODE (lhs) == MODIFY_EXPR)
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{
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/* If LHS has side effects, call stabilize_reference on it, so it can
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be evaluated multiple times. */
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if (TREE_SIDE_EFFECTS (TREE_OPERAND (lhs, 0)))
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lhs = build_assign (MODIFY_EXPR,
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stabilize_reference (TREE_OPERAND (lhs, 0)),
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TREE_OPERAND (lhs, 1));
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lexpr = compound_expr (lexpr, lhs);
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lhs = TREE_OPERAND (lhs, 0);
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}
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lhs = stabilize_reference (lhs);
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/* Save RHS, to ensure that the expression is evaluated before LHS. */
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tree rhs = build_expr (e2);
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tree rexpr = d_save_expr (rhs);
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rhs = binary_op (code, build_ctype (e1->type),
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convert_expr (lhs, e1b->type, e1->type), rexpr);
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if (TREE_SIDE_EFFECTS (rhs))
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rhs = compound_expr (rexpr, rhs);
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tree expr = modify_expr (lhs, convert_expr (rhs, e1->type, e1b->type));
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return compound_expr (lexpr, expr);
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}
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/* Implements the visitor interface to build the GCC trees of all Expression
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AST classes emitted from the D Front-end.
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All visit methods accept one parameter E, which holds the frontend AST
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@ -56,169 +224,6 @@ class ExprVisitor : public Visitor
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tree result_;
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bool constp_;
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/* Determine if type is a struct that has a postblit. */
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bool needs_postblit (Type *t)
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{
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t = t->baseElemOf ();
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if (TypeStruct *ts = t->isTypeStruct ())
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{
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if (ts->sym->postblit)
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return true;
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}
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return false;
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}
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/* Determine if type is a struct that has a destructor. */
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bool needs_dtor (Type *t)
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{
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t = t->baseElemOf ();
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if (TypeStruct *ts = t->isTypeStruct ())
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{
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if (ts->sym->dtor)
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return true;
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}
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return false;
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}
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/* Determine if expression is suitable lvalue. */
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bool lvalue_p (Expression *e)
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{
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SliceExp *se = e->isSliceExp ();
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if (se != NULL && se->e1->isLvalue ())
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return true;
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CastExp *ce = e->isCastExp ();
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if (ce != NULL && ce->e1->isLvalue ())
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return true;
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return (e->op != TOKslice && e->isLvalue ());
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}
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/* Build an expression of code CODE, data type TYPE, and operands ARG0 and
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ARG1. Perform relevant conversions needed for correct code operations. */
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tree binary_op (tree_code code, tree type, tree arg0, tree arg1)
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{
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tree t0 = TREE_TYPE (arg0);
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tree t1 = TREE_TYPE (arg1);
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tree ret = NULL_TREE;
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bool unsignedp = TYPE_UNSIGNED (t0) || TYPE_UNSIGNED (t1);
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/* Deal with float mod expressions immediately. */
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if (code == FLOAT_MOD_EXPR)
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return build_float_modulus (type, arg0, arg1);
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if (POINTER_TYPE_P (t0) && INTEGRAL_TYPE_P (t1))
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return build_nop (type, build_offset_op (code, arg0, arg1));
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if (INTEGRAL_TYPE_P (t0) && POINTER_TYPE_P (t1))
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return build_nop (type, build_offset_op (code, arg1, arg0));
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if (POINTER_TYPE_P (t0) && POINTER_TYPE_P (t1))
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{
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gcc_assert (code == MINUS_EXPR);
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tree ptrtype = lang_hooks.types.type_for_mode (ptr_mode, 0);
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/* POINTER_DIFF_EXPR requires a signed integer type of the same size as
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pointers. If some platform cannot provide that, or has a larger
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ptrdiff_type to support differences larger than half the address
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space, cast the pointers to some larger integer type and do the
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computations in that type. */
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if (TYPE_PRECISION (ptrtype) > TYPE_PRECISION (t0))
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ret = fold_build2 (MINUS_EXPR, ptrtype,
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d_convert (ptrtype, arg0),
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d_convert (ptrtype, arg1));
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else
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ret = fold_build2 (POINTER_DIFF_EXPR, ptrtype, arg0, arg1);
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}
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else if (INTEGRAL_TYPE_P (type) && (TYPE_UNSIGNED (type) != unsignedp))
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{
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tree inttype = (unsignedp)
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? d_unsigned_type (type) : d_signed_type (type);
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ret = fold_build2 (code, inttype, arg0, arg1);
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}
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else
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{
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/* If the operation needs excess precision. */
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tree eptype = excess_precision_type (type);
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if (eptype != NULL_TREE)
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{
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arg0 = d_convert (eptype, arg0);
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arg1 = d_convert (eptype, arg1);
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}
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else
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{
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/* Front-end does not do this conversion and GCC does not
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always do it right. */
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if (COMPLEX_FLOAT_TYPE_P (t0) && !COMPLEX_FLOAT_TYPE_P (t1))
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arg1 = d_convert (t0, arg1);
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else if (COMPLEX_FLOAT_TYPE_P (t1) && !COMPLEX_FLOAT_TYPE_P (t0))
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arg0 = d_convert (t1, arg0);
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eptype = type;
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}
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ret = fold_build2 (code, eptype, arg0, arg1);
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}
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return d_convert (type, ret);
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}
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/* Build a binary expression of code CODE, assigning the result into E1. */
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tree binop_assignment (tree_code code, Expression *e1, Expression *e2)
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{
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/* Skip casts for lhs assignment. */
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Expression *e1b = e1;
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while (e1b->op == TOKcast)
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{
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CastExp *ce = e1b->isCastExp ();
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gcc_assert (same_type_p (ce->type, ce->to));
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e1b = ce->e1;
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}
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/* Stabilize LHS for assignment. */
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tree lhs = build_expr (e1b);
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tree lexpr = stabilize_expr (&lhs);
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/* The LHS expression could be an assignment, to which its operation gets
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lost during gimplification. */
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if (TREE_CODE (lhs) == MODIFY_EXPR)
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{
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/* If LHS has side effects, call stabilize_reference on it, so it can
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be evaluated multiple times. */
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if (TREE_SIDE_EFFECTS (TREE_OPERAND (lhs, 0)))
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lhs = build_assign (MODIFY_EXPR,
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stabilize_reference (TREE_OPERAND (lhs, 0)),
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TREE_OPERAND (lhs, 1));
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lexpr = compound_expr (lexpr, lhs);
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lhs = TREE_OPERAND (lhs, 0);
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}
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lhs = stabilize_reference (lhs);
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/* Save RHS, to ensure that the expression is evaluated before LHS. */
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tree rhs = build_expr (e2);
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tree rexpr = d_save_expr (rhs);
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rhs = this->binary_op (code, build_ctype (e1->type),
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convert_expr (lhs, e1b->type, e1->type), rexpr);
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if (TREE_SIDE_EFFECTS (rhs))
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rhs = compound_expr (rexpr, rhs);
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tree expr = modify_expr (lhs, convert_expr (rhs, e1->type, e1b->type));
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return compound_expr (lexpr, expr);
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}
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public:
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ExprVisitor (bool constp)
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{
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@ -653,8 +658,8 @@ public:
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gcc_unreachable ();
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}
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this->result_ = this->binary_op (code, build_ctype (e->type),
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build_expr (e->e1), build_expr (e->e2));
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this->result_ = binary_op (code, build_ctype (e->type),
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build_expr (e->e1), build_expr (e->e2));
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}
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gcc_unreachable ();
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}
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tree exp = this->binop_assignment (code, e1b, e->e2);
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tree exp = binop_assignment (code, e1b, e->e2);
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this->result_ = convert_expr (exp, e1b->type, e->type);
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}
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@ -915,8 +920,8 @@ public:
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Type *etype = stype->nextOf ()->toBasetype ();
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/* Determine if we need to run postblit or dtor. */
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bool postblit = this->needs_postblit (etype) && this->lvalue_p (e->e2);
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bool destructor = this->needs_dtor (etype);
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bool postblit = needs_postblit (etype) && lvalue_p (e->e2);
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bool destructor = needs_dtor (etype);
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if (e->memset & blockAssign)
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{
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@ -1098,15 +1103,15 @@ public:
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gcc_assert (e->e2->type->toBasetype ()->ty == Tsarray);
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/* Determine if we need to run postblit. */
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bool postblit = this->needs_postblit (etype);
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bool destructor = this->needs_dtor (etype);
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bool lvalue_p = this->lvalue_p (e->e2);
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bool postblit = needs_postblit (etype);
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bool destructor = needs_dtor (etype);
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bool lvalue = lvalue_p (e->e2);
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/* Even if the elements in rhs are all rvalues and don't have
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to call postblits, this assignment should call dtors on old
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assigned elements. */
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if ((!postblit && !destructor)
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|| (e->op == TOKconstruct && !lvalue_p && postblit)
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|| (e->op == TOKconstruct && !lvalue && postblit)
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|| (e->op == TOKblit || e->e1->type->size () == 0))
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{
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tree t1 = build_expr (e->e1);
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@ -1132,7 +1137,7 @@ public:
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{
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/* Generate: _d_arrayassign_l()
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or: _d_arrayassign_r() */
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libcall_fn libcall = (lvalue_p)
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libcall_fn libcall = (lvalue)
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? LIBCALL_ARRAYASSIGN_L : LIBCALL_ARRAYASSIGN_R;
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tree elembuf = build_local_temp (build_ctype (etype));
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