/* Diagnostic subroutines for printing source-code Copyright (C) 1999-2016 Free Software Foundation, Inc. Contributed by Gabriel Dos Reis 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 . */ #include "config.h" #include "system.h" #include "coretypes.h" #include "version.h" #include "demangle.h" #include "intl.h" #include "backtrace.h" #include "diagnostic.h" #include "diagnostic-color.h" #ifdef HAVE_TERMIOS_H # include #endif #ifdef GWINSZ_IN_SYS_IOCTL # include #endif /* Classes for rendering source code and diagnostics, within an anonymous namespace. The work is done by "class layout", which embeds and uses "class colorizer" and "class layout_range" to get things done. */ namespace { /* The state at a given point of the source code, assuming that we're in a range: which range are we in, and whether we should draw a caret at this point. */ struct point_state { int range_idx; bool draw_caret_p; }; /* A class to inject colorization codes when printing the diagnostic locus. It has one kind of colorization for each of: - normal text - range 0 (the "primary location") - range 1 - range 2 The class caches the lookup of the color codes for the above. The class also has responsibility for tracking which of the above is active, filtering out unnecessary changes. This allows layout::print_source_line and layout::print_annotation_line to simply request a colorization code for *every* character they print, via this class, and have the filtering be done for them here. */ class colorizer { public: colorizer (diagnostic_context *context, const diagnostic_info *diagnostic); ~colorizer (); void set_range (int range_idx) { set_state (range_idx); } void set_normal_text () { set_state (STATE_NORMAL_TEXT); } void set_fixit_hint () { set_state (0); } private: void set_state (int state); void begin_state (int state); void finish_state (int state); private: static const int STATE_NORMAL_TEXT = -1; diagnostic_context *m_context; const diagnostic_info *m_diagnostic; int m_current_state; const char *m_caret_cs; const char *m_caret_ce; const char *m_range1_cs; const char *m_range2_cs; const char *m_range_ce; }; /* A point within a layout_range; similar to an expanded_location, but after filtering on file. */ class layout_point { public: layout_point (const expanded_location &exploc) : m_line (exploc.line), m_column (exploc.column) {} int m_line; int m_column; }; /* A class for use by "class layout" below: a filtered location_range. */ class layout_range { public: layout_range (const expanded_location *start_exploc, const expanded_location *finish_exploc, bool show_caret_p, const expanded_location *caret_exploc); bool contains_point (int row, int column) const; layout_point m_start; layout_point m_finish; bool m_show_caret_p; layout_point m_caret; }; /* A struct for use by layout::print_source_line for telling layout::print_annotation_line the extents of the source line that it printed, so that underlines can be clipped appropriately. */ struct line_bounds { int m_first_non_ws; int m_last_non_ws; }; /* A range of contiguous source lines within a layout (e.g. "lines 5-10" or "line 23"). During the layout ctor, layout::calculate_line_spans splits the pertinent source lines into a list of disjoint line_span instances (e.g. lines 5-10, lines 15-20, line 23). */ struct line_span { line_span (linenum_type first_line, linenum_type last_line) : m_first_line (first_line), m_last_line (last_line) { gcc_assert (first_line <= last_line); } linenum_type get_first_line () const { return m_first_line; } linenum_type get_last_line () const { return m_last_line; } bool contains_line_p (linenum_type line) const { return line >= m_first_line && line <= m_last_line; } static int comparator (const void *p1, const void *p2) { const line_span *ls1 = (const line_span *)p1; const line_span *ls2 = (const line_span *)p2; int first_line_diff = (int)ls1->m_first_line - (int)ls2->m_first_line; if (first_line_diff) return first_line_diff; return (int)ls1->m_last_line - (int)ls2->m_last_line; } linenum_type m_first_line; linenum_type m_last_line; }; /* A class to control the overall layout when printing a diagnostic. The layout is determined within the constructor. It is then printed by repeatedly calling the "print_source_line", "print_annotation_line" and "print_any_fixits" methods. We assume we have disjoint ranges. */ class layout { public: layout (diagnostic_context *context, const diagnostic_info *diagnostic); int get_num_line_spans () const { return m_line_spans.length (); } const line_span *get_line_span (int idx) const { return &m_line_spans[idx]; } bool print_heading_for_line_span_index_p (int line_span_idx) const; expanded_location get_expanded_location (const line_span *) const; bool print_source_line (int row, line_bounds *lbounds_out); void print_annotation_line (int row, const line_bounds lbounds); void print_any_fixits (int row, const rich_location *richloc); private: void calculate_line_spans (); void print_newline (); bool get_state_at_point (/* Inputs. */ int row, int column, int first_non_ws, int last_non_ws, /* Outputs. */ point_state *out_state); int get_x_bound_for_row (int row, int caret_column, int last_non_ws); void move_to_column (int *column, int dest_column); private: diagnostic_context *m_context; pretty_printer *m_pp; diagnostic_t m_diagnostic_kind; expanded_location m_exploc; colorizer m_colorizer; bool m_colorize_source_p; auto_vec m_layout_ranges; auto_vec m_line_spans; int m_x_offset; }; /* Implementation of "class colorizer". */ /* The constructor for "colorizer". Lookup and store color codes for the different kinds of things we might need to print. */ colorizer::colorizer (diagnostic_context *context, const diagnostic_info *diagnostic) : m_context (context), m_diagnostic (diagnostic), m_current_state (STATE_NORMAL_TEXT) { m_caret_ce = colorize_stop (pp_show_color (context->printer)); m_range1_cs = colorize_start (pp_show_color (context->printer), "range1"); m_range2_cs = colorize_start (pp_show_color (context->printer), "range2"); m_range_ce = colorize_stop (pp_show_color (context->printer)); } /* The destructor for "colorize". If colorization is on, print a code to turn it off. */ colorizer::~colorizer () { finish_state (m_current_state); } /* Update state, printing color codes if necessary if there's a state change. */ void colorizer::set_state (int new_state) { if (m_current_state != new_state) { finish_state (m_current_state); m_current_state = new_state; begin_state (new_state); } } /* Turn on any colorization for STATE. */ void colorizer::begin_state (int state) { switch (state) { case STATE_NORMAL_TEXT: break; case 0: /* Make range 0 be the same color as the "kind" text (error vs warning vs note). */ pp_string (m_context->printer, colorize_start (pp_show_color (m_context->printer), diagnostic_get_color_for_kind (m_diagnostic->kind))); break; case 1: pp_string (m_context->printer, m_range1_cs); break; case 2: pp_string (m_context->printer, m_range2_cs); break; default: /* We don't expect more than 3 ranges per diagnostic. */ gcc_unreachable (); break; } } /* Turn off any colorization for STATE. */ void colorizer::finish_state (int state) { switch (state) { case STATE_NORMAL_TEXT: break; case 0: pp_string (m_context->printer, m_caret_ce); break; default: /* Within a range. */ gcc_assert (state > 0); pp_string (m_context->printer, m_range_ce); break; } } /* Implementation of class layout_range. */ /* The constructor for class layout_range. Initialize various layout_point fields from expanded_location equivalents; we've already filtered on file. */ layout_range::layout_range (const expanded_location *start_exploc, const expanded_location *finish_exploc, bool show_caret_p, const expanded_location *caret_exploc) : m_start (*start_exploc), m_finish (*finish_exploc), m_show_caret_p (show_caret_p), m_caret (*caret_exploc) { } /* Is (column, row) within the given range? We've already filtered on the file. Ranges are closed (both limits are within the range). Example A: a single-line range: start: (col=22, line=2) finish: (col=38, line=2) |00000011111111112222222222333333333344444444444 |34567890123456789012345678901234567890123456789 --+----------------------------------------------- 01|bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb 02|bbbbbbbbbbbbbbbbbbbSwwwwwwwwwwwwwwwFaaaaaaaaaaa 03|aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa Example B: a multiline range with start: (col=14, line=3) finish: (col=08, line=5) |00000011111111112222222222333333333344444444444 |34567890123456789012345678901234567890123456789 --+----------------------------------------------- 01|bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb 02|bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb 03|bbbbbbbbbbbSwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwww 04|wwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwww 05|wwwwwFaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa 06|aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa --+----------------------------------------------- Legend: - 'b' indicates a point *before* the range - 'S' indicates the start of the range - 'w' indicates a point within the range - 'F' indicates the finish of the range (which is within it). - 'a' indicates a subsequent point *after* the range. */ bool layout_range::contains_point (int row, int column) const { gcc_assert (m_start.m_line <= m_finish.m_line); /* ...but the equivalent isn't true for the columns; consider example B in the comment above. */ if (row < m_start.m_line) /* Points before the first line of the range are outside it (corresponding to line 01 in example A and lines 01 and 02 in example B above). */ return false; if (row == m_start.m_line) /* On same line as start of range (corresponding to line 02 in example A and line 03 in example B). */ { if (column < m_start.m_column) /* Points on the starting line of the range, but before the column in which it begins. */ return false; if (row < m_finish.m_line) /* This is a multiline range; the point is within it (corresponds to line 03 in example B from column 14 onwards) */ return true; else { /* This is a single-line range. */ gcc_assert (row == m_finish.m_line); return column <= m_finish.m_column; } } /* The point is in a line beyond that containing the start of the range: lines 03 onwards in example A, and lines 04 onwards in example B. */ gcc_assert (row > m_start.m_line); if (row > m_finish.m_line) /* The point is beyond the final line of the range (lines 03 onwards in example A, and lines 06 onwards in example B). */ return false; if (row < m_finish.m_line) { /* The point is in a line that's fully within a multiline range (e.g. line 04 in example B). */ gcc_assert (m_start.m_line < m_finish.m_line); return true; } gcc_assert (row == m_finish.m_line); return column <= m_finish.m_column; } /* Given a source line LINE of length LINE_WIDTH, determine the width without any trailing whitespace. */ static int get_line_width_without_trailing_whitespace (const char *line, int line_width) { int result = line_width; while (result > 0) { char ch = line[result - 1]; if (ch == ' ' || ch == '\t') result--; else break; } gcc_assert (result >= 0); gcc_assert (result <= line_width); gcc_assert (result == 0 || (line[result - 1] != ' ' && line[result -1] != '\t')); return result; } /* Helper function for layout's ctor, for sanitizing locations relative to the primary location within a diagnostic. Compare LOC_A and LOC_B to see if it makes sense to print underlines connecting their expanded locations. Doing so is only guaranteed to make sense if the locations share the same macro expansion "history" i.e. they can be traced through the same macro expansions, eventually reaching an ordinary map. This may be too strong a condition, but it effectively sanitizes PR c++/70105, which has an example of printing an expression where the final location of the expression is in a different macro, which erroneously was leading to hundreds of lines of irrelevant source being printed. */ static bool compatible_locations_p (location_t loc_a, location_t loc_b) { if (IS_ADHOC_LOC (loc_a)) loc_a = get_location_from_adhoc_loc (line_table, loc_a); if (IS_ADHOC_LOC (loc_b)) loc_b = get_location_from_adhoc_loc (line_table, loc_b); /* If either location is one of the special locations outside of a linemap, they are only compatible if they are equal. */ if (loc_a < RESERVED_LOCATION_COUNT || loc_b < RESERVED_LOCATION_COUNT) return loc_a == loc_b; const line_map *map_a = linemap_lookup (line_table, loc_a); linemap_assert (map_a); const line_map *map_b = linemap_lookup (line_table, loc_b); linemap_assert (map_b); /* Are they within the same map? */ if (map_a == map_b) { /* Are both within the same macro expansion? */ if (linemap_macro_expansion_map_p (map_a)) { /* Expand each location towards the spelling location, and recurse. */ const line_map_macro *macro_map = linemap_check_macro (map_a); source_location loc_a_toward_spelling = linemap_macro_map_loc_unwind_toward_spelling (line_table, macro_map, loc_a); source_location loc_b_toward_spelling = linemap_macro_map_loc_unwind_toward_spelling (line_table, macro_map, loc_b); return compatible_locations_p (loc_a_toward_spelling, loc_b_toward_spelling); } /* Otherwise they are within the same ordinary map. */ return true; } else { /* Within different maps. */ /* If either is within a macro expansion, they are incompatible. */ if (linemap_macro_expansion_map_p (map_a) || linemap_macro_expansion_map_p (map_b)) return false; /* Within two different ordinary maps; they are compatible iff they are in the same file. */ const line_map_ordinary *ord_map_a = linemap_check_ordinary (map_a); const line_map_ordinary *ord_map_b = linemap_check_ordinary (map_b); return ord_map_a->to_file == ord_map_b->to_file; } } /* Implementation of class layout. */ /* Constructor for class layout. Filter the ranges from the rich_location to those that we can sanely print, populating m_layout_ranges. Determine the range of lines that we will print, splitting them up into an ordered list of disjoint spans of contiguous line numbers. Determine m_x_offset, to ensure that the primary caret will fit within the max_width provided by the diagnostic_context. */ layout::layout (diagnostic_context * context, const diagnostic_info *diagnostic) : m_context (context), m_pp (context->printer), m_diagnostic_kind (diagnostic->kind), m_exploc (diagnostic->richloc->get_expanded_location (0)), m_colorizer (context, diagnostic), m_colorize_source_p (context->colorize_source_p), m_layout_ranges (rich_location::MAX_RANGES), m_line_spans (1 + rich_location::MAX_RANGES), m_x_offset (0) { rich_location *richloc = diagnostic->richloc; source_location primary_loc = richloc->get_range (0)->m_loc; for (unsigned int idx = 0; idx < richloc->get_num_locations (); idx++) { /* This diagnostic printer can only cope with "sufficiently sane" ranges. Ignore any ranges that are awkward to handle. */ const location_range *loc_range = richloc->get_range (idx); /* Split the "range" into caret and range information. */ source_range src_range = get_range_from_loc (line_table, loc_range->m_loc); /* Expand the various locations. */ expanded_location start = linemap_client_expand_location_to_spelling_point (src_range.m_start); expanded_location finish = linemap_client_expand_location_to_spelling_point (src_range.m_finish); expanded_location caret = linemap_client_expand_location_to_spelling_point (loc_range->m_loc); /* If any part of the range isn't in the same file as the primary location of this diagnostic, ignore the range. */ if (start.file != m_exploc.file) continue; if (finish.file != m_exploc.file) continue; if (loc_range->m_show_caret_p) if (caret.file != m_exploc.file) continue; /* Sanitize the caret location for non-primary ranges. */ if (m_layout_ranges.length () > 0) if (loc_range->m_show_caret_p) if (!compatible_locations_p (loc_range->m_loc, primary_loc)) /* Discard any non-primary ranges that can't be printed sanely relative to the primary location. */ continue; /* Everything is now known to be in the correct source file, but it may require further sanitization. */ layout_range ri (&start, &finish, loc_range->m_show_caret_p, &caret); /* If we have a range that finishes before it starts (perhaps from something built via macro expansion), printing the range is likely to be nonsensical. Also, attempting to do so breaks assumptions within the printing code (PR c/68473). Similarly, don't attempt to print ranges if one or both ends of the range aren't sane to print relative to the primary location (PR c++/70105). */ if (start.line > finish.line || !compatible_locations_p (src_range.m_start, primary_loc) || !compatible_locations_p (src_range.m_finish, primary_loc)) { /* Is this the primary location? */ if (m_layout_ranges.length () == 0) { /* We want to print the caret for the primary location, but we must sanitize away m_start and m_finish. */ ri.m_start = ri.m_caret; ri.m_finish = ri.m_caret; } else /* This is a non-primary range; ignore it. */ continue; } /* Passed all the tests; add the range to m_layout_ranges so that it will be printed. */ m_layout_ranges.safe_push (ri); } /* Populate m_line_spans. */ calculate_line_spans (); /* Adjust m_x_offset. Center the primary caret to fit in max_width; all columns will be adjusted accordingly. */ int max_width = m_context->caret_max_width; int line_width; const char *line = location_get_source_line (m_exploc.file, m_exploc.line, &line_width); if (line && m_exploc.column <= line_width) { int right_margin = CARET_LINE_MARGIN; int column = m_exploc.column; right_margin = MIN (line_width - column, right_margin); right_margin = max_width - right_margin; if (line_width >= max_width && column > right_margin) m_x_offset = column - right_margin; gcc_assert (m_x_offset >= 0); } } /* Return true iff we should print a heading when starting the line span with the given index. */ bool layout::print_heading_for_line_span_index_p (int line_span_idx) const { /* We print a heading for every change of line span, hence for every line span after the initial one. */ if (line_span_idx > 0) return true; /* We also do it for the initial span if the primary location of the diagnostic is in a different span. */ if (m_exploc.line > (int)get_line_span (0)->m_last_line) return true; return false; } /* Get an expanded_location for the first location of interest within the given line_span. Used when printing a heading to indicate a new line span. */ expanded_location layout::get_expanded_location (const line_span *line_span) const { /* Whenever possible, use the caret location. */ if (line_span->contains_line_p (m_exploc.line)) return m_exploc; /* Otherwise, use the start of the first range that's present within the line_span. */ for (unsigned int i = 0; i < m_layout_ranges.length (); i++) { const layout_range *lr = &m_layout_ranges[i]; if (line_span->contains_line_p (lr->m_start.m_line)) { expanded_location exploc = m_exploc; exploc.line = lr->m_start.m_line; exploc.column = lr->m_start.m_column; return exploc; } } /* It should not be possible to have a line span that didn't contain any of the layout_range instances. */ gcc_unreachable (); return m_exploc; } /* We want to print the pertinent source code at a diagnostic. The rich_location can contain multiple locations. This will have been filtered into m_exploc (the caret for the primary location) and m_layout_ranges, for those ranges within the same source file. We will print a subset of the lines within the source file in question, as a collection of "spans" of lines. This function populates m_line_spans with an ordered, disjoint list of the line spans of interest. For example, if the primary caret location is on line 7, with ranges covering lines 5-6 and lines 9-12: 004 005 |RANGE 0 006 |RANGE 0 007 |PRIMARY CARET 008 009 |RANGE 1 010 |RANGE 1 011 |RANGE 1 012 |RANGE 1 013 then we want two spans: lines 5-7 and lines 9-12. */ void layout::calculate_line_spans () { /* This should only be called once, by the ctor. */ gcc_assert (m_line_spans.length () == 0); /* Populate tmp_spans with individual spans, for each of m_exploc, and for m_layout_ranges. */ auto_vec tmp_spans (1 + rich_location::MAX_RANGES); tmp_spans.safe_push (line_span (m_exploc.line, m_exploc.line)); for (unsigned int i = 0; i < m_layout_ranges.length (); i++) { const layout_range *lr = &m_layout_ranges[i]; gcc_assert (lr->m_start.m_line <= lr->m_finish.m_line); tmp_spans.safe_push (line_span (lr->m_start.m_line, lr->m_finish.m_line)); } /* Sort them. */ tmp_spans.qsort(line_span::comparator); /* Now iterate through tmp_spans, copying into m_line_spans, and combining where possible. */ gcc_assert (tmp_spans.length () > 0); m_line_spans.safe_push (tmp_spans[0]); for (unsigned int i = 1; i < tmp_spans.length (); i++) { line_span *current = &m_line_spans[m_line_spans.length () - 1]; const line_span *next = &tmp_spans[i]; gcc_assert (next->m_first_line >= current->m_first_line); if (next->m_first_line <= current->m_last_line + 1) { /* We can merge them. */ if (next->m_last_line > current->m_last_line) current->m_last_line = next->m_last_line; } else { /* No merger possible. */ m_line_spans.safe_push (*next); } } /* Verify the result, in m_line_spans. */ gcc_assert (m_line_spans.length () > 0); for (unsigned int i = 1; i < m_line_spans.length (); i++) { const line_span *prev = &m_line_spans[i - 1]; const line_span *next = &m_line_spans[i]; /* The individual spans must be sane. */ gcc_assert (prev->m_first_line <= prev->m_last_line); gcc_assert (next->m_first_line <= next->m_last_line); /* The spans must be ordered. */ gcc_assert (prev->m_first_line < next->m_first_line); /* There must be a gap of at least one line between separate spans. */ gcc_assert ((prev->m_last_line + 1) < next->m_first_line); } } /* Attempt to print line ROW of source code, potentially colorized at any ranges. Return true if the line was printed, populating *LBOUNDS_OUT. Return false if the source line could not be read, leaving *LBOUNDS_OUT untouched. */ bool layout::print_source_line (int row, line_bounds *lbounds_out) { int line_width; const char *line = location_get_source_line (m_exploc.file, row, &line_width); if (!line) return false; m_colorizer.set_normal_text (); /* We will stop printing the source line at any trailing whitespace. */ line_width = get_line_width_without_trailing_whitespace (line, line_width); line += m_x_offset; pp_space (m_pp); int first_non_ws = INT_MAX; int last_non_ws = 0; int column; for (column = 1 + m_x_offset; column <= line_width; column++) { /* Assuming colorization is enabled for the caret and underline characters, we may also colorize the associated characters within the source line. For frontends that generate range information, we color the associated characters in the source line the same as the carets and underlines in the annotation line, to make it easier for the reader to see the pertinent code. For frontends that only generate carets, we don't colorize the characters above them, since this would look strange (e.g. colorizing just the first character in a token). */ if (m_colorize_source_p) { bool in_range_p; point_state state; in_range_p = get_state_at_point (row, column, 0, INT_MAX, &state); if (in_range_p) m_colorizer.set_range (state.range_idx); else m_colorizer.set_normal_text (); } char c = *line == '\t' ? ' ' : *line; if (c == '\0') c = ' '; if (c != ' ') { last_non_ws = column; if (first_non_ws == INT_MAX) first_non_ws = column; } pp_character (m_pp, c); line++; } print_newline (); lbounds_out->m_first_non_ws = first_non_ws; lbounds_out->m_last_non_ws = last_non_ws; return true; } /* Print a line consisting of the caret/underlines for the given source line. */ void layout::print_annotation_line (int row, const line_bounds lbounds) { int x_bound = get_x_bound_for_row (row, m_exploc.column, lbounds.m_last_non_ws); pp_space (m_pp); for (int column = 1 + m_x_offset; column < x_bound; column++) { bool in_range_p; point_state state; in_range_p = get_state_at_point (row, column, lbounds.m_first_non_ws, lbounds.m_last_non_ws, &state); if (in_range_p) { /* Within a range. Draw either the caret or an underline. */ m_colorizer.set_range (state.range_idx); if (state.draw_caret_p) /* Draw the caret. */ pp_character (m_pp, m_context->caret_chars[state.range_idx]); else pp_character (m_pp, '~'); } else { /* Not in a range. */ m_colorizer.set_normal_text (); pp_character (m_pp, ' '); } } print_newline (); } /* If there are any fixit hints on source line ROW within RICHLOC, print them. They are printed in order, attempting to combine them onto lines, but starting new lines if necessary. */ void layout::print_any_fixits (int row, const rich_location *richloc) { int column = 0; for (unsigned int i = 0; i < richloc->get_num_fixit_hints (); i++) { fixit_hint *hint = richloc->get_fixit_hint (i); if (hint->affects_line_p (m_exploc.file, row)) { /* For now we assume each fixit hint can only touch one line. */ switch (hint->get_kind ()) { case fixit_hint::INSERT: { fixit_insert *insert = static_cast (hint); /* This assumes the insertion just affects one line. */ int start_column = LOCATION_COLUMN (insert->get_location ()); move_to_column (&column, start_column); m_colorizer.set_fixit_hint (); pp_string (m_pp, insert->get_string ()); m_colorizer.set_normal_text (); column += insert->get_length (); } break; case fixit_hint::REMOVE: { fixit_remove *remove = static_cast (hint); /* This assumes the removal just affects one line. */ source_range src_range = remove->get_range (); int start_column = LOCATION_COLUMN (src_range.m_start); int finish_column = LOCATION_COLUMN (src_range.m_finish); move_to_column (&column, start_column); for (int column = start_column; column <= finish_column; column++) { m_colorizer.set_fixit_hint (); pp_character (m_pp, '-'); m_colorizer.set_normal_text (); } } break; case fixit_hint::REPLACE: { fixit_replace *replace = static_cast (hint); int start_column = LOCATION_COLUMN (replace->get_range ().m_start); move_to_column (&column, start_column); m_colorizer.set_fixit_hint (); pp_string (m_pp, replace->get_string ()); m_colorizer.set_normal_text (); column += replace->get_length (); } break; default: gcc_unreachable (); } } } /* Add a trailing newline, if necessary. */ move_to_column (&column, 0); } /* Disable any colorization and emit a newline. */ void layout::print_newline () { m_colorizer.set_normal_text (); pp_newline (m_pp); } /* Return true if (ROW/COLUMN) is within a range of the layout. If it returns true, OUT_STATE is written to, with the range index, and whether we should draw the caret at (ROW/COLUMN) (as opposed to an underline). */ bool layout::get_state_at_point (/* Inputs. */ int row, int column, int first_non_ws, int last_non_ws, /* Outputs. */ point_state *out_state) { layout_range *range; int i; FOR_EACH_VEC_ELT (m_layout_ranges, i, range) { if (range->contains_point (row, column)) { out_state->range_idx = i; /* Are we at the range's caret? is it visible? */ out_state->draw_caret_p = false; if (range->m_show_caret_p && row == range->m_caret.m_line && column == range->m_caret.m_column) out_state->draw_caret_p = true; /* Within a multiline range, don't display any underline in any leading or trailing whitespace on a line. We do display carets, however. */ if (!out_state->draw_caret_p) if (column < first_non_ws || column > last_non_ws) return false; /* We are within a range. */ return true; } } return false; } /* Helper function for use by layout::print_line when printing the annotation line under the source line. Get the column beyond the rightmost one that could contain a caret or range marker, given that we stop rendering at trailing whitespace. ROW is the source line within the given file. CARET_COLUMN is the column of range 0's caret. LAST_NON_WS_COLUMN is the last column containing a non-whitespace character of source (as determined when printing the source line). */ int layout::get_x_bound_for_row (int row, int caret_column, int last_non_ws_column) { int result = caret_column + 1; layout_range *range; int i; FOR_EACH_VEC_ELT (m_layout_ranges, i, range) { if (row >= range->m_start.m_line) { if (range->m_finish.m_line == row) { /* On the final line within a range; ensure that we render up to the end of the range. */ if (result <= range->m_finish.m_column) result = range->m_finish.m_column + 1; } else if (row < range->m_finish.m_line) { /* Within a multiline range; ensure that we render up to the last non-whitespace column. */ if (result <= last_non_ws_column) result = last_non_ws_column + 1; } } } return result; } /* Given *COLUMN as an x-coordinate, print spaces to position successive output at DEST_COLUMN, printing a newline if necessary, and updating *COLUMN. */ void layout::move_to_column (int *column, int dest_column) { /* Start a new line if we need to. */ if (*column > dest_column) { print_newline (); *column = 0; } while (*column < dest_column) { pp_space (m_pp); (*column)++; } } } /* End of anonymous namespace. */ /* Print the physical source code corresponding to the location of this diagnostic, with additional annotations. */ void diagnostic_show_locus (diagnostic_context * context, const diagnostic_info *diagnostic) { pp_newline (context->printer); if (!context->show_caret || diagnostic_location (diagnostic, 0) <= BUILTINS_LOCATION || diagnostic_location (diagnostic, 0) == context->last_location) return; context->last_location = diagnostic_location (diagnostic, 0); const char *saved_prefix = pp_get_prefix (context->printer); pp_set_prefix (context->printer, NULL); layout layout (context, diagnostic); for (int line_span_idx = 0; line_span_idx < layout.get_num_line_spans (); line_span_idx++) { const line_span *line_span = layout.get_line_span (line_span_idx); if (layout.print_heading_for_line_span_index_p (line_span_idx)) { expanded_location exploc = layout.get_expanded_location (line_span); context->start_span (context, exploc); } int last_line = line_span->get_last_line (); for (int row = line_span->get_first_line (); row <= last_line; row++) { /* Print the source line, followed by an annotation line consisting of any caret/underlines, then any fixits. If the source line can't be read, print nothing. */ line_bounds lbounds; if (layout.print_source_line (row, &lbounds)) { layout.print_annotation_line (row, lbounds); layout.print_any_fixits (row, diagnostic->richloc); } } } pp_set_prefix (context->printer, saved_prefix); }