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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [testsuite/] [gcc.dg/] [plugin/] [selfassign.c] - Rev 801
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/* This plugin contains an analysis pass that detects and warns about self-assignment statements. */ /* { dg-options "-O" } */ #include "gcc-plugin.h" #include "config.h" #include "system.h" #include "coretypes.h" #include "tm.h" #include "toplev.h" #include "basic-block.h" #include "gimple.h" #include "tree.h" #include "tree-pass.h" #include "intl.h" #include "plugin-version.h" #include "diagnostic.h" int plugin_is_GPL_compatible; /* Indicate whether to check overloaded operator '=', which is performed by default. To disable it, use -fplugin-arg-NAME-no-check-operator-eq. */ bool check_operator_eq = true; /* Given a rhs EXPR of a gimple assign statement, if it is - SSA_NAME : returns its var decl, or, if it is a temp variable, returns the rhs of its SSA def statement. - VAR_DECL, PARM_DECL, FIELD_DECL, or a reference expression : returns EXPR itself. - any other expression : returns NULL_TREE. */ static tree get_real_ref_rhs (tree expr) { switch (TREE_CODE (expr)) { case SSA_NAME: { /* Given a self-assign statement, say foo.x = foo.x, the IR (after SSA) looks like: D.1797_14 = foo.x; foo.x ={v} D.1797_14; So if the rhs EXPR is an SSA_NAME of a temp variable, e.g. D.1797_14, we need to grab the rhs of its SSA def statement (i.e. foo.x). */ tree vdecl = SSA_NAME_VAR (expr); if (DECL_ARTIFICIAL (vdecl) && !gimple_nop_p (SSA_NAME_DEF_STMT (expr))) { gimple def_stmt = SSA_NAME_DEF_STMT (expr); /* We are only interested in an assignment with a single rhs operand because if it is not, the original assignment will not possibly be a self-assignment. */ if (gimple_assign_single_p (def_stmt)) return get_real_ref_rhs (gimple_assign_rhs1 (def_stmt)); else return NULL_TREE; } else return vdecl; } case VAR_DECL: case PARM_DECL: case FIELD_DECL: case COMPONENT_REF: case MEM_REF: case ARRAY_REF: return expr; default: return NULL_TREE; } } /* Given an expression tree, EXPR, that may contains SSA names, returns an equivalent tree with the SSA names converted to var/parm/field decls so that it can be used with '%E' format modifier when emitting warning messages. This function currently only supports VAR/PARM/FIELD_DECL, reference expressions (COMPONENT_REF, INDIRECT_REF, ARRAY_REF), integer constant, and SSA_NAME. If EXPR contains any other tree nodes (e.g. an arithmetic expression appears in array index), NULL_TREE is returned. */ static tree get_non_ssa_expr (tree expr) { switch (TREE_CODE (expr)) { case VAR_DECL: case PARM_DECL: case FIELD_DECL: { if (DECL_NAME (expr)) return expr; else return NULL_TREE; } case COMPONENT_REF: { tree base, orig_base = TREE_OPERAND (expr, 0); tree component, orig_component = TREE_OPERAND (expr, 1); base = get_non_ssa_expr (orig_base); if (!base) return NULL_TREE; component = get_non_ssa_expr (orig_component); if (!component) return NULL_TREE; /* If either BASE or COMPONENT is converted, build a new component reference tree. */ if (base != orig_base || component != orig_component) return build3 (COMPONENT_REF, TREE_TYPE (component), base, component, NULL_TREE); else return expr; } case MEM_REF: { tree orig_base = TREE_OPERAND (expr, 0); if (TREE_CODE (orig_base) == SSA_NAME) { tree base = get_non_ssa_expr (orig_base); if (!base) return NULL_TREE; return fold_build2 (MEM_REF, TREE_TYPE (expr), base, TREE_OPERAND (expr, 1)); } return expr; } case ARRAY_REF: { tree array, orig_array = TREE_OPERAND (expr, 0); tree index, orig_index = TREE_OPERAND (expr, 1); array = get_non_ssa_expr (orig_array); if (!array) return NULL_TREE; index = get_non_ssa_expr (orig_index); if (!index) return NULL_TREE; /* If either ARRAY or INDEX is converted, build a new array reference tree. */ if (array != orig_array || index != orig_index) return build4 (ARRAY_REF, TREE_TYPE (expr), array, index, TREE_OPERAND (expr, 2), TREE_OPERAND (expr, 3)); else return expr; } case SSA_NAME: { tree vdecl = SSA_NAME_VAR (expr); if (DECL_ARTIFICIAL (vdecl) && !gimple_nop_p (SSA_NAME_DEF_STMT (expr))) { gimple def_stmt = SSA_NAME_DEF_STMT (expr); if (gimple_assign_single_p (def_stmt)) vdecl = gimple_assign_rhs1 (def_stmt); } return get_non_ssa_expr (vdecl); } case INTEGER_CST: return expr; default: /* Return NULL_TREE for any other kind of tree nodes. */ return NULL_TREE; } } /* Given the LHS and (real) RHS of a gimple assign statement, STMT, check if they are the same. If so, print a warning message about self-assignment. */ static void compare_and_warn (gimple stmt, tree lhs, tree rhs) { if (operand_equal_p (lhs, rhs, OEP_PURE_SAME)) { location_t location; location = (gimple_has_location (stmt) ? gimple_location (stmt) : (DECL_P (lhs) ? DECL_SOURCE_LOCATION (lhs) : input_location)); /* If LHS contains any tree node not currently supported by get_non_ssa_expr, simply emit a generic warning without specifying LHS in the message. */ lhs = get_non_ssa_expr (lhs); if (lhs) warning_at (location, 0, G_("%qE is assigned to itself"), lhs); else warning_at (location, 0, G_("self-assignment detected")); } } /* Check and warn if STMT is a self-assign statement. */ static void warn_self_assign (gimple stmt) { tree rhs, lhs; /* Check assigment statement. */ if (gimple_assign_single_p (stmt)) { rhs = get_real_ref_rhs (gimple_assign_rhs1 (stmt)); if (!rhs) return; lhs = gimple_assign_lhs (stmt); if (TREE_CODE (lhs) == SSA_NAME) { lhs = SSA_NAME_VAR (lhs); if (DECL_ARTIFICIAL (lhs)) return; } compare_and_warn (stmt, lhs, rhs); } /* Check overloaded operator '=' (if enabled). */ else if (check_operator_eq && is_gimple_call (stmt)) { tree fdecl = gimple_call_fndecl (stmt); if (fdecl && (DECL_NAME (fdecl) == maybe_get_identifier ("operator="))) { /* If 'operator=' takes reference operands, the arguments will be ADDR_EXPR trees. In this case, just remove the address-taken operator before we compare the lhs and rhs. */ lhs = gimple_call_arg (stmt, 0); if (TREE_CODE (lhs) == ADDR_EXPR) lhs = TREE_OPERAND (lhs, 0); rhs = gimple_call_arg (stmt, 1); if (TREE_CODE (rhs) == ADDR_EXPR) rhs = TREE_OPERAND (rhs, 0); compare_and_warn (stmt, lhs, rhs); } } } /* Entry point for the self-assignment detection pass. */ static unsigned int execute_warn_self_assign (void) { gimple_stmt_iterator gsi; basic_block bb; FOR_EACH_BB (bb) { for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi)) warn_self_assign (gsi_stmt (gsi)); } return 0; } /* Pass gate function. Currently always returns true. */ static bool gate_warn_self_assign (void) { return true; } static struct gimple_opt_pass pass_warn_self_assign = { { GIMPLE_PASS, "warn_self_assign", /* name */ gate_warn_self_assign, /* gate */ execute_warn_self_assign, /* execute */ NULL, /* sub */ NULL, /* next */ 0, /* static_pass_number */ TV_NONE, /* tv_id */ PROP_ssa, /* properties_required */ 0, /* properties_provided */ 0, /* properties_destroyed */ 0, /* todo_flags_start */ TODO_dump_func /* todo_flags_finish */ } }; /* The initialization routine exposed to and called by GCC. The spec of this function is defined in gcc/gcc-plugin.h. PLUGIN_NAME - name of the plugin (useful for error reporting) ARGC - the size of the ARGV array ARGV - an array of key-value argument pair Returns 0 if initialization finishes successfully. Note that this function needs to be named exactly "plugin_init". */ int plugin_init (struct plugin_name_args *plugin_info, struct plugin_gcc_version *version) { struct register_pass_info pass_info; const char *plugin_name = plugin_info->base_name; int argc = plugin_info->argc; struct plugin_argument *argv = plugin_info->argv; bool enabled = true; int i; if (!plugin_default_version_check (version, &gcc_version)) return 1; /* Self-assign detection should happen after SSA is constructed. */ pass_info.pass = &pass_warn_self_assign.pass; pass_info.reference_pass_name = "ssa"; pass_info.ref_pass_instance_number = 1; pass_info.pos_op = PASS_POS_INSERT_AFTER; /* Process the plugin arguments. This plugin takes the following arguments: check-operator-eq, no-check-operator-eq, enable, and disable. By default, the analysis is enabled with 'operator=' checked. */ for (i = 0; i < argc; ++i) { if (!strcmp (argv[i].key, "check-operator-eq")) { if (argv[i].value) warning (0, G_("option '-fplugin-arg-%s-check-operator-eq=%s'" " ignored (superfluous '=%s')"), plugin_name, argv[i].value, argv[i].value); else check_operator_eq = true; } else if (!strcmp (argv[i].key, "no-check-operator-eq")) { if (argv[i].value) warning (0, G_("option '-fplugin-arg-%s-no-check-operator-eq=%s'" " ignored (superfluous '=%s')"), plugin_name, argv[i].value, argv[i].value); else check_operator_eq = false; } else if (!strcmp (argv[i].key, "enable")) { if (argv[i].value) warning (0, G_("option '-fplugin-arg-%s-enable=%s' ignored" " (superfluous '=%s')"), plugin_name, argv[i].value, argv[i].value); else enabled = true; } else if (!strcmp (argv[i].key, "disable")) { if (argv[i].value) warning (0, G_("option '-fplugin-arg-%s-disable=%s' ignored" " (superfluous '=%s')"), plugin_name, argv[i].value, argv[i].value); else enabled = false; } else warning (0, G_("plugin %qs: unrecognized argument %qs ignored"), plugin_name, argv[i].key); } /* Register this new pass with GCC if the analysis is enabled. */ if (enabled) register_callback (plugin_name, PLUGIN_PASS_MANAGER_SETUP, NULL, &pass_info); return 0; }
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