gcc/gcc-rich-location.cc - gcc - Git at Google

 /* Implementation of gcc_rich_location class
    Copyright (C) 2014-2022 Free Software Foundation, Inc.

 This file is part of GCC.

 GCC is free software; you can redistribute it and/or modify it under
 the terms of the GNU General Public License as published by the Free
 Software Foundation; either version 3, or (at your option) any later
 version.

 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
 WARRANTY; without even the implied warranty of MERCHANTABILITY or
 FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 for more details.

 You should have received a copy of the GNU General Public License
 along with GCC; see the file COPYING3.  If not see
 <http://www.gnu.org/licenses/>.  */

 #include "config.h"
 #include "system.h"
 #include "coretypes.h"
 #include "tm.h"
 #include "rtl.h"
 #include "hash-set.h"
 #include "vec.h"
 #include "input.h"
 #include "alias.h"
 #include "symtab.h"
 #include "inchash.h"
 #include "tree-core.h"
 #include "tree.h"
 #include "diagnostic-core.h"
 #include "gcc-rich-location.h"
 #include "print-tree.h"
 #include "pretty-print.h"
 #include "intl.h"
 #include "cpplib.h"
 #include "diagnostic.h"

 /* Add a range to the rich_location, covering expression EXPR,
    using LABEL if non-NULL. */

 void
 gcc_rich_location::add_expr (tree expr, range_label *label)
 {
   gcc_assert (expr);

   if (CAN_HAVE_RANGE_P (expr))
     add_range (EXPR_LOCATION (expr), SHOW_RANGE_WITHOUT_CARET, label);
 }

 /* If T is an expression, add a range for it to the rich_location,
    using LABEL if non-NULL. */

 void
 gcc_rich_location::maybe_add_expr (tree t, range_label *label)
 {
   if (EXPR_P (t))
     add_expr (t, label);
 }

 /* Add a fixit hint suggesting replacing the range at MISSPELLED_TOKEN_LOC
    with the identifier HINT_ID.  */

 void
 gcc_rich_location::add_fixit_misspelled_id (location_t misspelled_token_loc,
 					    tree hint_id)
 {
   gcc_assert (TREE_CODE (hint_id) == IDENTIFIER_NODE);

   add_fixit_replace (misspelled_token_loc, IDENTIFIER_POINTER (hint_id));
 }

 /* Return true if there is nothing on LOC's line before LOC.  */

 static bool
 blank_line_before_p (location_t loc)
 {
   expanded_location exploc = expand_location (loc);
   char_span line = location_get_source_line (exploc.file, exploc.line);
   if (!line)
     return false;
   if (line.length () < (size_t)exploc.column)
     return false;
   /* Columns are 1-based.  */
   for (int column = 1; column < exploc.column; ++column)
     if (!ISSPACE (line[column - 1]))
       return false;
   return true;
 }

 /* Subroutine of gcc_rich_location::add_fixit_insert_formatted.
    Return true if we should add the content on its own line,
    false otherwise.
    If true is returned then *OUT_START_OF_LINE is written to.  */

 static bool
 use_new_line (location_t insertion_point, location_t indent,
 	      location_t *out_start_of_line)
 {
   if (indent == UNKNOWN_LOCATION)
     return false;
   const line_map *indent_map = linemap_lookup (line_table, indent);
   if (linemap_macro_expansion_map_p (indent_map))
     return false;

   if (!blank_line_before_p (insertion_point))
     return false;

   /* Locate the start of the line containing INSERTION_POINT.  */
   const line_map *insertion_point_map
     = linemap_lookup (line_table, insertion_point);
   if (linemap_macro_expansion_map_p (insertion_point_map))
     return false;
   const line_map_ordinary *ordmap
     = linemap_check_ordinary (insertion_point_map);
   expanded_location exploc_insertion_point = expand_location (insertion_point);
   location_t start_of_line
     = linemap_position_for_line_and_column (line_table, ordmap,
 					    exploc_insertion_point.line, 1);
   *out_start_of_line = start_of_line;
   return true;
 }

 /* Add a fix-it hint suggesting the insertion of CONTENT before
    INSERTION_POINT.

    Attempt to handle formatting: if INSERTION_POINT is the first thing on
    its line, and INDENT is sufficiently sane, then add CONTENT on its own
    line, using the indentation of INDENT.
    Otherwise, add CONTENT directly before INSERTION_POINT.

    For example, adding "CONTENT;" with the closing brace as the insertion
    point and "INDENT;" as the indentation point:

    if ()
      {
        INDENT;
      }

   would lead to:

    if ()
      {
        INDENT;
        CONTENT;
      }

   but adding it to:

     if () {INDENT;}

   would lead to:

     if () {INDENT;CONTENT;}
 */

 void
 gcc_rich_location::add_fixit_insert_formatted (const char *content,
 					       location_t insertion_point,
 					       location_t indent)
 {
   location_t start_of_line;
   if (use_new_line (insertion_point, indent, &start_of_line))
     {
       /* Add CONTENT on its own line, using the indentation of INDENT.  */

       /* Generate an insertion string, indenting by the amount INDENT
 	 was indented.  */
       int indent_column = LOCATION_COLUMN (get_start (indent));
       pretty_printer tmp_pp;
       pretty_printer *pp = &tmp_pp;
       /* Columns are 1-based.  */
       for (int column = 1; column < indent_column; ++column)
 	pp_space (pp);
       pp_string (pp, content);
       pp_newline (pp);

       add_fixit_insert_before (start_of_line, pp_formatted_text (pp));
     }
   else
     add_fixit_insert_before (insertion_point, content);
 }

 /* Implementation of range_label::get_text for
    maybe_range_label_for_tree_type_mismatch.

    If both expressions are non-NULL, then generate text describing
    the first expression's type (using the other expression's type
    for comparison, analogous to %H and %I in the C++ frontend, but
    on expressions rather than types).  */

 label_text
 maybe_range_label_for_tree_type_mismatch::get_text (unsigned range_idx) const
 {
   if (m_expr == NULL_TREE
       || !EXPR_P (m_expr))
     return label_text::borrow (NULL);
   tree expr_type = TREE_TYPE (m_expr);

   tree other_type = NULL_TREE;
   if (m_other_expr && EXPR_P (m_other_expr))
     other_type = TREE_TYPE (m_other_expr);

   range_label_for_type_mismatch inner (expr_type, other_type);
   return inner.get_text (range_idx);
 }

 /* binary_op_rich_location's ctor.

    If use_operator_loc_p (LOC, ARG0, ARG1), then attempt to make a 3-location
    rich_location of the form:

      arg_0 op arg_1
      ~~~~~ ^~ ~~~~~
        |        |
        |        arg1 type
        arg0 type

    labelling the types of the arguments if SHOW_TYPES is true.

    Otherwise, make a 1-location rich_location using the compound
    location within LOC:

      arg_0 op arg_1
      ~~~~~~^~~~~~~~

    for which we can't label the types.  */

 binary_op_rich_location::binary_op_rich_location (const op_location_t &loc,
 						  tree arg0, tree arg1,
 						  bool show_types)
 : gcc_rich_location (loc.m_combined_loc),
   m_label_for_arg0 (arg0, arg1),
   m_label_for_arg1 (arg1, arg0)
 {
   /* Default (above) to using the combined loc.
      Potentially override it here: if we have location information for the
      operator and for both arguments, then split them all out.
      Alternatively, override it if we don't have the combined location.  */
   if (use_operator_loc_p (loc, arg0, arg1))
     {
       set_range (0, loc.m_operator_loc, SHOW_RANGE_WITH_CARET);
       maybe_add_expr (arg0, show_types ? &m_label_for_arg0 : NULL);
       maybe_add_expr (arg1, show_types ? &m_label_for_arg1 : NULL);
     }
 }

 /* Determine if binary_op_rich_location's ctor should attempt to make
    a 3-location rich_location (the location of the operator and of
    the 2 arguments), or fall back to a 1-location rich_location showing
    just the combined location of the operation as a whole.  */

 bool
 binary_op_rich_location::use_operator_loc_p (const op_location_t &loc,
 					     tree arg0, tree arg1)
 {
   /* If we don't have a combined location, then use the operator location,
      and try to add ranges for the operators.  */
   if (loc.m_combined_loc == UNKNOWN_LOCATION)
     return true;

   /* If we don't have the operator location, then use the
      combined location.  */
   if (loc.m_operator_loc == UNKNOWN_LOCATION)
     return false;

   /* We have both operator location and combined location: only use the
      operator location if we have locations for both arguments.  */
   return (EXPR_HAS_LOCATION (arg0)
 	  && EXPR_HAS_LOCATION (arg1));
 }
	/* Implementation of gcc_rich_location class
	Copyright (C) 2014-2022 Free Software Foundation, Inc.

	This file is part of GCC.

	GCC is free software; you can redistribute it and/or modify it under
	the terms of the GNU General Public License as published by the Free
	Software Foundation; either version 3, or (at your option) any later
	version.

	GCC is distributed in the hope that it will be useful, but WITHOUT ANY
	WARRANTY; without even the implied warranty of MERCHANTABILITY or
	FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	for more details.

	You should have received a copy of the GNU General Public License
	along with GCC; see the file COPYING3. If not see
	<http://www.gnu.org/licenses/>. */

	#include "config.h"
	#include "system.h"
	#include "coretypes.h"
	#include "tm.h"
	#include "rtl.h"
	#include "hash-set.h"
	#include "vec.h"
	#include "input.h"
	#include "alias.h"
	#include "symtab.h"
	#include "inchash.h"
	#include "tree-core.h"
	#include "tree.h"
	#include "diagnostic-core.h"
	#include "gcc-rich-location.h"
	#include "print-tree.h"
	#include "pretty-print.h"
	#include "intl.h"
	#include "cpplib.h"
	#include "diagnostic.h"

	/* Add a range to the rich_location, covering expression EXPR,
	using LABEL if non-NULL. */

	void
	gcc_rich_location::add_expr (tree expr, range_label *label)
	{
	gcc_assert (expr);

	if (CAN_HAVE_RANGE_P (expr))
	add_range (EXPR_LOCATION (expr), SHOW_RANGE_WITHOUT_CARET, label);
	}

	/* If T is an expression, add a range for it to the rich_location,
	using LABEL if non-NULL. */

	void
	gcc_rich_location::maybe_add_expr (tree t, range_label *label)
	{
	if (EXPR_P (t))
	add_expr (t, label);
	}

	/* Add a fixit hint suggesting replacing the range at MISSPELLED_TOKEN_LOC
	with the identifier HINT_ID. */

	void
	gcc_rich_location::add_fixit_misspelled_id (location_t misspelled_token_loc,
	tree hint_id)
	{
	gcc_assert (TREE_CODE (hint_id) == IDENTIFIER_NODE);

	add_fixit_replace (misspelled_token_loc, IDENTIFIER_POINTER (hint_id));
	}

	/* Return true if there is nothing on LOC's line before LOC. */

	static bool
	blank_line_before_p (location_t loc)
	{
	expanded_location exploc = expand_location (loc);
	char_span line = location_get_source_line (exploc.file, exploc.line);
	if (!line)
	return false;
	if (line.length () < (size_t)exploc.column)
	return false;
	/* Columns are 1-based. */
	for (int column = 1; column < exploc.column; ++column)
	if (!ISSPACE (line[column - 1]))
	return false;
	return true;
	}

	/* Subroutine of gcc_rich_location::add_fixit_insert_formatted.
	Return true if we should add the content on its own line,
	false otherwise.
	If true is returned then OUT_START_OF_LINE is written to. /

	static bool
	use_new_line (location_t insertion_point, location_t indent,
	location_t *out_start_of_line)
	{
	if (indent == UNKNOWN_LOCATION)
	return false;
	const line_map *indent_map = linemap_lookup (line_table, indent);
	if (linemap_macro_expansion_map_p (indent_map))
	return false;

	if (!blank_line_before_p (insertion_point))
	return false;

	/* Locate the start of the line containing INSERTION_POINT. */
	const line_map *insertion_point_map
	= linemap_lookup (line_table, insertion_point);
	if (linemap_macro_expansion_map_p (insertion_point_map))
	return false;
	const line_map_ordinary *ordmap
	= linemap_check_ordinary (insertion_point_map);
	expanded_location exploc_insertion_point = expand_location (insertion_point);
	location_t start_of_line
	= linemap_position_for_line_and_column (line_table, ordmap,
	exploc_insertion_point.line, 1);
	*out_start_of_line = start_of_line;
	return true;
	}

	/* Add a fix-it hint suggesting the insertion of CONTENT before
	INSERTION_POINT.

	Attempt to handle formatting: if INSERTION_POINT is the first thing on
	its line, and INDENT is sufficiently sane, then add CONTENT on its own
	line, using the indentation of INDENT.
	Otherwise, add CONTENT directly before INSERTION_POINT.

	For example, adding "CONTENT;" with the closing brace as the insertion
	point and "INDENT;" as the indentation point:

	if ()
	{
	INDENT;
	}

	would lead to:

	if ()
	{
	INDENT;
	CONTENT;
	}

	but adding it to:

	if () {INDENT;}

	would lead to:

	if () {INDENT;CONTENT;}
	*/

	void
	gcc_rich_location::add_fixit_insert_formatted (const char *content,
	location_t insertion_point,
	location_t indent)
	{
	location_t start_of_line;
	if (use_new_line (insertion_point, indent, &start_of_line))
	{
	/* Add CONTENT on its own line, using the indentation of INDENT. */

	/* Generate an insertion string, indenting by the amount INDENT
	was indented. */
	int indent_column = LOCATION_COLUMN (get_start (indent));
	pretty_printer tmp_pp;
	pretty_printer *pp = &tmp_pp;
	/* Columns are 1-based. */
	for (int column = 1; column < indent_column; ++column)
	pp_space (pp);
	pp_string (pp, content);
	pp_newline (pp);

	add_fixit_insert_before (start_of_line, pp_formatted_text (pp));
	}
	else
	add_fixit_insert_before (insertion_point, content);
	}

	/* Implementation of range_label::get_text for
	maybe_range_label_for_tree_type_mismatch.

	If both expressions are non-NULL, then generate text describing
	the first expression's type (using the other expression's type
	for comparison, analogous to %H and %I in the C++ frontend, but
	on expressions rather than types). */

	label_text
	maybe_range_label_for_tree_type_mismatch::get_text (unsigned range_idx) const
	{
	if (m_expr == NULL_TREE
	\|\| !EXPR_P (m_expr))
	return label_text::borrow (NULL);
	tree expr_type = TREE_TYPE (m_expr);

	tree other_type = NULL_TREE;
	if (m_other_expr && EXPR_P (m_other_expr))
	other_type = TREE_TYPE (m_other_expr);

	range_label_for_type_mismatch inner (expr_type, other_type);
	return inner.get_text (range_idx);
	}

	/* binary_op_rich_location's ctor.

	If use_operator_loc_p (LOC, ARG0, ARG1), then attempt to make a 3-location
	rich_location of the form:

	arg_0 op arg_1
	~~~~~ ^~ ~~~~~
	\| \|
	\| arg1 type
	arg0 type

	labelling the types of the arguments if SHOW_TYPES is true.

	Otherwise, make a 1-location rich_location using the compound
	location within LOC:

	arg_0 op arg_1
	~~~~~~^~~~~~~~

	for which we can't label the types. */

	binary_op_rich_location::binary_op_rich_location (const op_location_t &loc,
	tree arg0, tree arg1,
	bool show_types)
	: gcc_rich_location (loc.m_combined_loc),
	m_label_for_arg0 (arg0, arg1),
	m_label_for_arg1 (arg1, arg0)
	{
	/* Default (above) to using the combined loc.
	Potentially override it here: if we have location information for the
	operator and for both arguments, then split them all out.
	Alternatively, override it if we don't have the combined location. */
	if (use_operator_loc_p (loc, arg0, arg1))
	{
	set_range (0, loc.m_operator_loc, SHOW_RANGE_WITH_CARET);
	maybe_add_expr (arg0, show_types ? &m_label_for_arg0 : NULL);
	maybe_add_expr (arg1, show_types ? &m_label_for_arg1 : NULL);
	}
	}

	/* Determine if binary_op_rich_location's ctor should attempt to make
	a 3-location rich_location (the location of the operator and of
	the 2 arguments), or fall back to a 1-location rich_location showing
	just the combined location of the operation as a whole. */

	bool
	binary_op_rich_location::use_operator_loc_p (const op_location_t &loc,
	tree arg0, tree arg1)
	{
	/* If we don't have a combined location, then use the operator location,
	and try to add ranges for the operators. */
	if (loc.m_combined_loc == UNKNOWN_LOCATION)
	return true;

	/* If we don't have the operator location, then use the
	combined location. */
	if (loc.m_operator_loc == UNKNOWN_LOCATION)
	return false;

	/* We have both operator location and combined location: only use the
	operator location if we have locations for both arguments. */
	return (EXPR_HAS_LOCATION (arg0)
	&& EXPR_HAS_LOCATION (arg1));
	}