/usr/lib/gcc-cross/mips64el-linux-gnuabi64/8/plugin/include/line-map.h is in gcc-8-plugin-dev-mips64el-linux-gnuabi64 8-20180414-1ubuntu2cross1.
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1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883 1884 1885 1886 1887 1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 1920 1921 1922 1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935 1936 1937 1938 1939 1940 1941 1942 1943 1944 | /* Map (unsigned int) keys to (source file, line, column) triples.
Copyright (C) 2001-2018 Free Software Foundation, Inc.
This program 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.
This program 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 this program; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>.
In other words, you are welcome to use, share and improve this program.
You are forbidden to forbid anyone else to use, share and improve
what you give them. Help stamp out software-hoarding! */
#ifndef LIBCPP_LINE_MAP_H
#define LIBCPP_LINE_MAP_H
#ifndef GTY
#define GTY(x) /* nothing */
#endif
/* Both gcc and emacs number source *lines* starting at 1, but
they have differing conventions for *columns*.
GCC uses a 1-based convention for source columns,
whereas Emacs's M-x column-number-mode uses a 0-based convention.
For example, an error in the initial, left-hand
column of source line 3 is reported by GCC as:
some-file.c:3:1: error: ...etc...
On navigating to the location of that error in Emacs
(e.g. via "next-error"),
the locus is reported in the Mode Line
(assuming M-x column-number-mode) as:
some-file.c 10% (3, 0)
i.e. "3:1:" in GCC corresponds to "(3, 0)" in Emacs. */
/* The type of line numbers. */
typedef unsigned int linenum_type;
/* A function for for use by qsort for comparing line numbers. */
inline int compare (linenum_type lhs, linenum_type rhs)
{
/* Avoid truncation issues by using long long for the comparison,
and only consider the sign of the result. */
long long diff = (long long)lhs - (long long)rhs;
if (diff)
return diff > 0 ? 1 : -1;
return 0;
}
/* Reason for creating a new line map with linemap_add. LC_ENTER is
when including a new file, e.g. a #include directive in C.
LC_LEAVE is when reaching a file's end. LC_RENAME is when a file
name or line number changes for neither of the above reasons
(e.g. a #line directive in C); LC_RENAME_VERBATIM is like LC_RENAME
but a filename of "" is not specially interpreted as standard
input. LC_ENTER_MACRO is when a macro expansion is about to start. */
enum lc_reason
{
LC_ENTER = 0,
LC_LEAVE,
LC_RENAME,
LC_RENAME_VERBATIM,
LC_ENTER_MACRO
/* FIXME: add support for stringize and paste. */
};
/* The typedef "source_location" is a key within the location database,
identifying a source location or macro expansion, along with range
information, and (optionally) a pointer for use by gcc.
This key only has meaning in relation to a line_maps instance. Within
gcc there is a single line_maps instance: "line_table", declared in
gcc/input.h and defined in gcc/input.c.
The values of the keys are intended to be internal to libcpp,
but for ease-of-understanding the implementation, they are currently
assigned as follows:
Actual | Value | Meaning
-----------+-------------------------------+-------------------------------
0x00000000 | UNKNOWN_LOCATION (gcc/input.h)| Unknown/invalid location.
-----------+-------------------------------+-------------------------------
0x00000001 | BUILTINS_LOCATION | The location for declarations
| (gcc/input.h) | in "<built-in>"
-----------+-------------------------------+-------------------------------
0x00000002 | RESERVED_LOCATION_COUNT | The first location to be
| (also | handed out, and the
| ordmap[0]->start_location) | first line in ordmap 0
-----------+-------------------------------+-------------------------------
| ordmap[1]->start_location | First line in ordmap 1
| ordmap[1]->start_location+32 | First column in that line
| (assuming range_bits == 5) |
| ordmap[1]->start_location+64 | 2nd column in that line
| ordmap[1]->start_location+4096| Second line in ordmap 1
| (assuming column_bits == 12)
|
| Subsequent lines are offset by (1 << column_bits),
| e.g. 4096 for 12 bits, with a column value of 0 representing
| "the whole line".
|
| Within a line, the low "range_bits" (typically 5) are used for
| storing short ranges, so that there's an offset of
| (1 << range_bits) between individual columns within a line,
| typically 32.
| The low range_bits store the offset of the end point from the
| start point, and the start point is found by masking away
| the range bits.
|
| For example:
| ordmap[1]->start_location+64 "2nd column in that line"
| above means a caret at that location, with a range
| starting and finishing at the same place (the range bits
| are 0), a range of length 1.
|
| By contrast:
| ordmap[1]->start_location+68
| has range bits 0x4, meaning a caret with a range starting at
| that location, but with endpoint 4 columns further on: a range
| of length 5.
|
| Ranges that have caret != start, or have an endpoint too
| far away to fit in range_bits are instead stored as ad-hoc
| locations. Hence for range_bits == 5 we can compactly store
| tokens of length <= 32 without needing to use the ad-hoc
| table.
|
| This packing scheme means we effectively have
| (column_bits - range_bits)
| of bits for the columns, typically (12 - 5) = 7, for 128
| columns; longer line widths are accomodated by starting a
| new ordmap with a higher column_bits.
|
| ordmap[2]->start_location-1 | Final location in ordmap 1
-----------+-------------------------------+-------------------------------
| ordmap[2]->start_location | First line in ordmap 2
| ordmap[3]->start_location-1 | Final location in ordmap 2
-----------+-------------------------------+-------------------------------
| | (etc)
-----------+-------------------------------+-------------------------------
| ordmap[n-1]->start_location | First line in final ord map
| | (etc)
| set->highest_location - 1 | Final location in that ordmap
-----------+-------------------------------+-------------------------------
| set->highest_location | Location of the where the next
| | ordinary linemap would start
-----------+-------------------------------+-------------------------------
| |
| VVVVVVVVVVVVVVVVVVVVVVVVVVV
| Ordinary maps grow this way
|
| (unallocated integers)
|
0x60000000 | LINE_MAP_MAX_LOCATION_WITH_COLS
| Beyond this point, ordinary linemaps have 0 bits per column:
| each increment of the value corresponds to a new source line.
|
0x70000000 | LINE_MAP_MAX_SOURCE_LOCATION
| Beyond the point, we give up on ordinary maps; attempts to
| create locations in them lead to UNKNOWN_LOCATION (0).
|
| (unallocated integers)
|
| Macro maps grow this way
| ^^^^^^^^^^^^^^^^^^^^^^^^
| |
-----------+-------------------------------+-------------------------------
| LINEMAPS_MACRO_LOWEST_LOCATION| Locations within macro maps
| macromap[m-1]->start_location | Start of last macro map
| |
-----------+-------------------------------+-------------------------------
| macromap[m-2]->start_location | Start of penultimate macro map
-----------+-------------------------------+-------------------------------
| macromap[1]->start_location | Start of macro map 1
-----------+-------------------------------+-------------------------------
| macromap[0]->start_location | Start of macro map 0
0x7fffffff | MAX_SOURCE_LOCATION | Also used as a mask for
| | accessing the ad-hoc data table
-----------+-------------------------------+-------------------------------
0x80000000 | Start of ad-hoc values; the lower 31 bits are used as an index
... | into the line_table->location_adhoc_data_map.data array.
0xffffffff | UINT_MAX |
-----------+-------------------------------+-------------------------------
Examples of location encoding.
Packed ranges
=============
Consider encoding the location of a token "foo", seen underlined here
on line 523, within an ordinary line_map that starts at line 500:
11111111112
12345678901234567890
522
523 return foo + bar;
^~~
524
The location's caret and start are both at line 523, column 11; the
location's finish is on the same line, at column 13 (an offset of 2
columns, for length 3).
Line 523 is offset 23 from the starting line of the ordinary line_map.
caret == start, and the offset of the finish fits within 5 bits, so
this can be stored as a packed range.
This is encoded as:
ordmap->start
+ (line_offset << ordmap->m_column_and_range_bits)
+ (column << ordmap->m_range_bits)
+ (range_offset);
i.e. (for line offset 23, column 11, range offset 2):
ordmap->start
+ (23 << 12)
+ (11 << 5)
+ 2;
i.e.:
ordmap->start + 0x17162
assuming that the line_map uses the default of 7 bits for columns and
5 bits for packed range (giving 12 bits for m_column_and_range_bits).
"Pure" locations
================
These are a special case of the above, where
caret == start == finish
They are stored as packed ranges with offset == 0.
For example, the location of the "f" of "foo" could be stored
as above, but with range offset 0, giving:
ordmap->start
+ (23 << 12)
+ (11 << 5)
+ 0;
i.e.:
ordmap->start + 0x17160
Unoptimized ranges
==================
Consider encoding the location of the binary expression
below:
11111111112
12345678901234567890
522
523 return foo + bar;
~~~~^~~~~
524
The location's caret is at the "+", line 523 column 15, but starts
earlier, at the "f" of "foo" at column 11. The finish is at the "r"
of "bar" at column 19.
This can't be stored as a packed range since start != caret.
Hence it is stored as an ad-hoc location e.g. 0x80000003.
Stripping off the top bit gives us an index into the ad-hoc
lookaside table:
line_table->location_adhoc_data_map.data[0x3]
from which the caret, start and finish can be looked up,
encoded as "pure" locations:
start == ordmap->start + (23 << 12) + (11 << 5)
== ordmap->start + 0x17160 (as above; the "f" of "foo")
caret == ordmap->start + (23 << 12) + (15 << 5)
== ordmap->start + 0x171e0
finish == ordmap->start + (23 << 12) + (19 << 5)
== ordmap->start + 0x17260
To further see how source_location works in practice, see the
worked example in libcpp/location-example.txt. */
typedef unsigned int source_location;
/* Do not track column numbers higher than this one. As a result, the
range of column_bits is [12, 18] (or 0 if column numbers are
disabled). */
const unsigned int LINE_MAP_MAX_COLUMN_NUMBER = (1U << 12);
/* Do not pack ranges if locations get higher than this.
If you change this, update:
gcc.dg/plugin/location-overflow-test-*.c. */
const source_location LINE_MAP_MAX_LOCATION_WITH_PACKED_RANGES = 0x50000000;
/* Do not track column numbers if locations get higher than this.
If you change this, update:
gcc.dg/plugin/location-overflow-test-*.c. */
const source_location LINE_MAP_MAX_LOCATION_WITH_COLS = 0x60000000;
/* A range of source locations.
Ranges are closed:
m_start is the first location within the range,
m_finish is the last location within the range.
We may need a more compact way to store these, but for now,
let's do it the simple way, as a pair. */
struct GTY(()) source_range
{
source_location m_start;
source_location m_finish;
/* We avoid using constructors, since various structs that
don't yet have constructors will embed instances of
source_range. */
/* Make a source_range from a source_location. */
static source_range from_location (source_location loc)
{
source_range result;
result.m_start = loc;
result.m_finish = loc;
return result;
}
/* Make a source_range from a pair of source_location. */
static source_range from_locations (source_location start,
source_location finish)
{
source_range result;
result.m_start = start;
result.m_finish = finish;
return result;
}
};
/* Memory allocation function typedef. Works like xrealloc. */
typedef void *(*line_map_realloc) (void *, size_t);
/* Memory allocator function that returns the actual allocated size,
for a given requested allocation. */
typedef size_t (*line_map_round_alloc_size_func) (size_t);
/* A line_map encodes a sequence of locations.
There are two kinds of maps. Ordinary maps and macro expansion
maps, a.k.a macro maps.
A macro map encodes source locations of tokens that are part of a
macro replacement-list, at a macro expansion point. E.g, in:
#define PLUS(A,B) A + B
No macro map is going to be created there, because we are not at a
macro expansion point. We are at a macro /definition/ point. So the
locations of the tokens of the macro replacement-list (i.e, A + B)
will be locations in an ordinary map, not a macro map.
On the other hand, if we later do:
int a = PLUS (1,2);
The invocation of PLUS here is a macro expansion. So we are at a
macro expansion point. The preprocessor expands PLUS (1,2) and
replaces it with the tokens of its replacement-list: 1 + 2. A macro
map is going to be created to hold (or rather to map, haha ...) the
locations of the tokens 1, + and 2. The macro map also records the
location of the expansion point of PLUS. That location is mapped in
the map that is active right before the location of the invocation
of PLUS. */
struct GTY((tag ("0"), desc ("%h.reason == LC_ENTER_MACRO ? 2 : 1"))) line_map {
source_location start_location;
/* The reason for creation of this line map. */
ENUM_BITFIELD (lc_reason) reason : CHAR_BIT;
};
/* An ordinary line map encodes physical source locations. Those
physical source locations are called "spelling locations".
Physical source file TO_FILE at line TO_LINE at column 0 is represented
by the logical START_LOCATION. TO_LINE+L at column C is represented by
START_LOCATION+(L*(1<<m_column_and_range_bits))+(C*1<<m_range_bits), as
long as C<(1<<effective range bits), and the result_location is less than
the next line_map's start_location.
(The top line is line 1 and the leftmost column is column 1; line/column 0
means "entire file/line" or "unknown line/column" or "not applicable".)
The highest possible source location is MAX_SOURCE_LOCATION. */
struct GTY((tag ("1"))) line_map_ordinary : public line_map {
const char *to_file;
linenum_type to_line;
/* An index into the set that gives the line mapping at whose end
the current one was included. File(s) at the bottom of the
include stack have this set to -1. */
int included_from;
/* SYSP is one for a system header, two for a C system header file
that therefore needs to be extern "C" protected in C++, and zero
otherwise. This field isn't really needed now that it's in
cpp_buffer. */
unsigned char sysp;
/* Number of the low-order source_location bits used for column numbers
and ranges. */
unsigned int m_column_and_range_bits : 8;
/* Number of the low-order "column" bits used for storing short ranges
inline, rather than in the ad-hoc table.
MSB LSB
31 0
+-------------------------+-------------------------------------------+
| |<---map->column_and_range_bits (e.g. 12)-->|
+-------------------------+-----------------------+-------------------+
| | column_and_range_bits | map->range_bits |
| | - range_bits | |
+-------------------------+-----------------------+-------------------+
| row bits | effective column bits | short range bits |
| | (e.g. 7) | (e.g. 5) |
+-------------------------+-----------------------+-------------------+ */
unsigned int m_range_bits : 8;
};
/* This is the highest possible source location encoded within an
ordinary or macro map. */
const source_location MAX_SOURCE_LOCATION = 0x7FFFFFFF;
struct cpp_hashnode;
/* A macro line map encodes location of tokens coming from a macro
expansion.
The offset from START_LOCATION is used to index into
MACRO_LOCATIONS; this holds the original location of the token. */
struct GTY((tag ("2"))) line_map_macro : public line_map {
/* The cpp macro which expansion gave birth to this macro map. */
struct cpp_hashnode * GTY ((nested_ptr (union tree_node,
"%h ? CPP_HASHNODE (GCC_IDENT_TO_HT_IDENT (%h)) : NULL",
"%h ? HT_IDENT_TO_GCC_IDENT (HT_NODE (%h)) : NULL")))
macro;
/* The number of tokens inside the replacement-list of MACRO. */
unsigned int n_tokens;
/* This array of location is actually an array of pairs of
locations. The elements inside it thus look like:
x0,y0, x1,y1, x2,y2, ...., xn,yn.
where n == n_tokens;
Remember that these xI,yI are collected when libcpp is about to
expand a given macro.
yI is the location in the macro definition, either of the token
itself or of a macro parameter that it replaces.
Imagine this:
#define PLUS(A, B) A + B <--- #1
int a = PLUS (1,2); <--- #2
There is a macro map for the expansion of PLUS in #2. PLUS is
expanded into its expansion-list. The expansion-list is the
replacement-list of PLUS where the macro parameters are replaced
with their arguments. So the replacement-list of PLUS is made of
the tokens:
A, +, B
and the expansion-list is made of the tokens:
1, +, 2
Let's consider the case of token "+". Its y1 [yI for I == 1] is
its spelling location in #1.
y0 (thus for token "1") is the spelling location of A in #1.
And y2 (of token "2") is the spelling location of B in #1.
When the token is /not/ an argument for a macro, xI is the same
location as yI. Otherwise, xI is the location of the token
outside this macro expansion. If this macro was expanded from
another macro expansion, xI is a virtual location representing
the token in that macro expansion; otherwise, it is the spelling
location of the token.
Note that a virtual location is a location returned by
linemap_add_macro_token. It encodes the relevant locations (x,y
pairs) of that token across the macro expansions from which it
(the token) might come from.
In the example above x1 (for token "+") is going to be the same
as y1. x0 is the spelling location for the argument token "1",
and x2 is the spelling location for the argument token "2". */
source_location * GTY((atomic)) macro_locations;
/* This is the location of the expansion point of the current macro
map. It's the location of the macro name. That location is held
by the map that was current right before the current one. It
could have been either a macro or an ordinary map, depending on
if we are in a nested expansion context not. */
source_location expansion;
};
#if CHECKING_P && (GCC_VERSION >= 2007)
/* Assertion macro to be used in line-map code. */
#define linemap_assert(EXPR) \
do { \
if (! (EXPR)) \
abort (); \
} while (0)
/* Assert that becomes a conditional expression when checking is disabled at
compilation time. Use this for conditions that should not happen but if
they happen, it is better to handle them gracefully rather than crash
randomly later.
Usage:
if (linemap_assert_fails(EXPR)) handle_error(); */
#define linemap_assert_fails(EXPR) __extension__ \
({linemap_assert (EXPR); false;})
#else
/* Include EXPR, so that unused variable warnings do not occur. */
#define linemap_assert(EXPR) ((void)(0 && (EXPR)))
#define linemap_assert_fails(EXPR) (! (EXPR))
#endif
/* Return TRUE if MAP encodes locations coming from a macro
replacement-list at macro expansion point. */
bool
linemap_macro_expansion_map_p (const struct line_map *);
/* Assert that MAP encodes locations of tokens that are not part of
the replacement-list of a macro expansion, downcasting from
line_map * to line_map_ordinary *. */
inline line_map_ordinary *
linemap_check_ordinary (struct line_map *map)
{
linemap_assert (!linemap_macro_expansion_map_p (map));
return (line_map_ordinary *)map;
}
/* Assert that MAP encodes locations of tokens that are not part of
the replacement-list of a macro expansion, downcasting from
const line_map * to const line_map_ordinary *. */
inline const line_map_ordinary *
linemap_check_ordinary (const struct line_map *map)
{
linemap_assert (!linemap_macro_expansion_map_p (map));
return (const line_map_ordinary *)map;
}
/* Assert that MAP is a macro expansion and downcast to the appropriate
subclass. */
inline line_map_macro *linemap_check_macro (line_map *map)
{
linemap_assert (linemap_macro_expansion_map_p (map));
return (line_map_macro *)map;
}
/* Assert that MAP is a macro expansion and downcast to the appropriate
subclass. */
inline const line_map_macro *
linemap_check_macro (const line_map *map)
{
linemap_assert (linemap_macro_expansion_map_p (map));
return (const line_map_macro *)map;
}
/* Read the start location of MAP. */
inline source_location
MAP_START_LOCATION (const line_map *map)
{
return map->start_location;
}
/* Get the starting line number of ordinary map MAP. */
inline linenum_type
ORDINARY_MAP_STARTING_LINE_NUMBER (const line_map_ordinary *ord_map)
{
return ord_map->to_line;
}
/* Get the index of the ordinary map at whose end
ordinary map MAP was included.
File(s) at the bottom of the include stack have this set. */
inline int
ORDINARY_MAP_INCLUDER_FILE_INDEX (const line_map_ordinary *ord_map)
{
return ord_map->included_from;
}
/* Return a positive value if map encodes locations from a system
header, 0 otherwise. Returns 1 if ordinary map MAP encodes locations
in a system header and 2 if it encodes locations in a C system header
that therefore needs to be extern "C" protected in C++. */
inline unsigned char
ORDINARY_MAP_IN_SYSTEM_HEADER_P (const line_map_ordinary *ord_map)
{
return ord_map->sysp;
}
/* Get the filename of ordinary map MAP. */
inline const char *
ORDINARY_MAP_FILE_NAME (const line_map_ordinary *ord_map)
{
return ord_map->to_file;
}
/* Get the cpp macro whose expansion gave birth to macro map MAP. */
inline cpp_hashnode *
MACRO_MAP_MACRO (const line_map_macro *macro_map)
{
return macro_map->macro;
}
/* Get the number of tokens inside the replacement-list of the macro
that led to macro map MAP. */
inline unsigned int
MACRO_MAP_NUM_MACRO_TOKENS (const line_map_macro *macro_map)
{
return macro_map->n_tokens;
}
/* Get the array of pairs of locations within macro map MAP.
See the declaration of line_map_macro for more information. */
inline source_location *
MACRO_MAP_LOCATIONS (const line_map_macro *macro_map)
{
return macro_map->macro_locations;
}
/* Get the location of the expansion point of the macro map MAP. */
inline source_location
MACRO_MAP_EXPANSION_POINT_LOCATION (const line_map_macro *macro_map)
{
return macro_map->expansion;
}
/* The abstraction of a set of location maps. There can be several
types of location maps. This abstraction contains the attributes
that are independent from the type of the map.
Essentially this is just a vector of T_linemap_subclass,
which can only ever grow in size. */
struct GTY(()) maps_info_ordinary {
/* This array contains the "ordinary" line maps, for all
events other than macro expansion
(e.g. when a new preprocessing unit starts or ends). */
line_map_ordinary * GTY ((length ("%h.used"))) maps;
/* The total number of allocated maps. */
unsigned int allocated;
/* The number of elements used in maps. This number is smaller
or equal to ALLOCATED. */
unsigned int used;
unsigned int cache;
};
struct GTY(()) maps_info_macro {
/* This array contains the macro line maps.
A macro line map is created whenever a macro expansion occurs. */
line_map_macro * GTY ((length ("%h.used"))) maps;
/* The total number of allocated maps. */
unsigned int allocated;
/* The number of elements used in maps. This number is smaller
or equal to ALLOCATED. */
unsigned int used;
unsigned int cache;
};
/* Data structure to associate a source_range together with an arbitrary
data pointer with a source location. */
struct GTY(()) location_adhoc_data {
source_location locus;
source_range src_range;
void * GTY((skip)) data;
};
struct htab;
/* The following data structure encodes a location with some adhoc data
and maps it to a new unsigned integer (called an adhoc location)
that replaces the original location to represent the mapping.
The new adhoc_loc uses the highest bit as the enabling bit, i.e. if the
highest bit is 1, then the number is adhoc_loc. Otherwise, it serves as
the original location. Once identified as the adhoc_loc, the lower 31
bits of the integer is used to index the location_adhoc_data array,
in which the locus and associated data is stored. */
struct GTY(()) location_adhoc_data_map {
struct htab * GTY((skip)) htab;
source_location curr_loc;
unsigned int allocated;
struct location_adhoc_data GTY((length ("%h.allocated"))) *data;
};
/* A set of chronological line_map structures. */
struct GTY(()) line_maps {
~line_maps ();
maps_info_ordinary info_ordinary;
maps_info_macro info_macro;
/* Depth of the include stack, including the current file. */
unsigned int depth;
/* If true, prints an include trace a la -H. */
bool trace_includes;
/* Highest source_location "given out". */
source_location highest_location;
/* Start of line of highest source_location "given out". */
source_location highest_line;
/* The maximum column number we can quickly allocate. Higher numbers
may require allocating a new line_map. */
unsigned int max_column_hint;
/* If non-null, the allocator to use when resizing 'maps'. If null,
xrealloc is used. */
line_map_realloc reallocator;
/* The allocators' function used to know the actual size it
allocated, for a certain allocation size requested. */
line_map_round_alloc_size_func round_alloc_size;
struct location_adhoc_data_map location_adhoc_data_map;
/* The special location value that is used as spelling location for
built-in tokens. */
source_location builtin_location;
/* True if we've seen a #line or # 44 "file" directive. */
bool seen_line_directive;
/* The default value of range_bits in ordinary line maps. */
unsigned int default_range_bits;
unsigned int num_optimized_ranges;
unsigned int num_unoptimized_ranges;
};
/* Returns the number of allocated maps so far. MAP_KIND shall be TRUE
if we are interested in macro maps, FALSE otherwise. */
inline unsigned int
LINEMAPS_ALLOCATED (const line_maps *set, bool map_kind)
{
if (map_kind)
return set->info_macro.allocated;
else
return set->info_ordinary.allocated;
}
/* As above, but by reference (e.g. as an lvalue). */
inline unsigned int &
LINEMAPS_ALLOCATED (line_maps *set, bool map_kind)
{
if (map_kind)
return set->info_macro.allocated;
else
return set->info_ordinary.allocated;
}
/* Returns the number of used maps so far. MAP_KIND shall be TRUE if
we are interested in macro maps, FALSE otherwise.*/
inline unsigned int
LINEMAPS_USED (const line_maps *set, bool map_kind)
{
if (map_kind)
return set->info_macro.used;
else
return set->info_ordinary.used;
}
/* As above, but by reference (e.g. as an lvalue). */
inline unsigned int &
LINEMAPS_USED (line_maps *set, bool map_kind)
{
if (map_kind)
return set->info_macro.used;
else
return set->info_ordinary.used;
}
/* Returns the index of the last map that was looked up with
linemap_lookup. MAP_KIND shall be TRUE if we are interested in
macro maps, FALSE otherwise. */
inline unsigned int
LINEMAPS_CACHE (const line_maps *set, bool map_kind)
{
if (map_kind)
return set->info_macro.cache;
else
return set->info_ordinary.cache;
}
/* As above, but by reference (e.g. as an lvalue). */
inline unsigned int &
LINEMAPS_CACHE (line_maps *set, bool map_kind)
{
if (map_kind)
return set->info_macro.cache;
else
return set->info_ordinary.cache;
}
/* Return the map at a given index. */
inline line_map *
LINEMAPS_MAP_AT (const line_maps *set, bool map_kind, int index)
{
if (map_kind)
return &set->info_macro.maps[index];
else
return &set->info_ordinary.maps[index];
}
/* Returns the last map used in the line table SET. MAP_KIND
shall be TRUE if we are interested in macro maps, FALSE
otherwise.*/
inline line_map *
LINEMAPS_LAST_MAP (const line_maps *set, bool map_kind)
{
return LINEMAPS_MAP_AT (set, map_kind,
LINEMAPS_USED (set, map_kind) - 1);
}
/* Returns the last map that was allocated in the line table SET.
MAP_KIND shall be TRUE if we are interested in macro maps, FALSE
otherwise.*/
inline line_map *
LINEMAPS_LAST_ALLOCATED_MAP (const line_maps *set, bool map_kind)
{
return LINEMAPS_MAP_AT (set, map_kind,
LINEMAPS_ALLOCATED (set, map_kind) - 1);
}
/* Returns a pointer to the memory region where ordinary maps are
allocated in the line table SET. */
inline line_map_ordinary *
LINEMAPS_ORDINARY_MAPS (const line_maps *set)
{
return set->info_ordinary.maps;
}
/* Returns the INDEXth ordinary map. */
inline line_map_ordinary *
LINEMAPS_ORDINARY_MAP_AT (const line_maps *set, int index)
{
linemap_assert (index >= 0);
linemap_assert ((unsigned int)index < set->info_ordinary.used);
return &set->info_ordinary.maps[index];
}
/* Return the number of ordinary maps allocated in the line table
SET. */
inline unsigned int
LINEMAPS_ORDINARY_ALLOCATED (const line_maps *set)
{
return LINEMAPS_ALLOCATED (set, false);
}
/* Return the number of ordinary maps used in the line table SET. */
inline unsigned int
LINEMAPS_ORDINARY_USED (const line_maps *set)
{
return LINEMAPS_USED (set, false);
}
/* Return the index of the last ordinary map that was looked up with
linemap_lookup. */
inline unsigned int
LINEMAPS_ORDINARY_CACHE (const line_maps *set)
{
return LINEMAPS_CACHE (set, false);
}
/* As above, but by reference (e.g. as an lvalue). */
inline unsigned int &
LINEMAPS_ORDINARY_CACHE (line_maps *set)
{
return LINEMAPS_CACHE (set, false);
}
/* Returns a pointer to the last ordinary map used in the line table
SET. */
inline line_map_ordinary *
LINEMAPS_LAST_ORDINARY_MAP (const line_maps *set)
{
return (line_map_ordinary *)LINEMAPS_LAST_MAP (set, false);
}
/* Returns a pointer to the last ordinary map allocated the line table
SET. */
inline line_map_ordinary *
LINEMAPS_LAST_ALLOCATED_ORDINARY_MAP (const line_maps *set)
{
return (line_map_ordinary *)LINEMAPS_LAST_ALLOCATED_MAP (set, false);
}
/* Returns a pointer to the beginning of the region where macro maps
are allocated. */
inline line_map_macro *
LINEMAPS_MACRO_MAPS (const line_maps *set)
{
return set->info_macro.maps;
}
/* Returns the INDEXth macro map. */
inline line_map_macro *
LINEMAPS_MACRO_MAP_AT (const line_maps *set, int index)
{
linemap_assert (index >= 0);
linemap_assert ((unsigned int)index < set->info_macro.used);
return &set->info_macro.maps[index];
}
/* Returns the number of macro maps that were allocated in the line
table SET. */
inline unsigned int
LINEMAPS_MACRO_ALLOCATED (const line_maps *set)
{
return LINEMAPS_ALLOCATED (set, true);
}
/* Returns the number of macro maps used in the line table SET. */
inline unsigned int
LINEMAPS_MACRO_USED (const line_maps *set)
{
return LINEMAPS_USED (set, true);
}
/* Returns the index of the last macro map looked up with
linemap_lookup. */
inline unsigned int
LINEMAPS_MACRO_CACHE (const line_maps *set)
{
return LINEMAPS_CACHE (set, true);
}
/* As above, but by reference (e.g. as an lvalue). */
inline unsigned int &
LINEMAPS_MACRO_CACHE (line_maps *set)
{
return LINEMAPS_CACHE (set, true);
}
/* Returns the last macro map used in the line table SET. */
inline line_map_macro *
LINEMAPS_LAST_MACRO_MAP (const line_maps *set)
{
return (line_map_macro *)LINEMAPS_LAST_MAP (set, true);
}
/* Returns the lowest location [of a token resulting from macro
expansion] encoded in this line table. */
inline source_location
LINEMAPS_MACRO_LOWEST_LOCATION (const line_maps *set)
{
return LINEMAPS_MACRO_USED (set)
? MAP_START_LOCATION (LINEMAPS_LAST_MACRO_MAP (set))
: MAX_SOURCE_LOCATION;
}
/* Returns the last macro map allocated in the line table SET. */
inline line_map_macro *
LINEMAPS_LAST_ALLOCATED_MACRO_MAP (const line_maps *set)
{
return (line_map_macro *)LINEMAPS_LAST_ALLOCATED_MAP (set, true);
}
extern source_location get_combined_adhoc_loc (struct line_maps *,
source_location,
source_range,
void *);
extern void *get_data_from_adhoc_loc (struct line_maps *, source_location);
extern source_location get_location_from_adhoc_loc (struct line_maps *,
source_location);
extern source_range get_range_from_loc (line_maps *set, source_location loc);
/* Get whether location LOC is an ad-hoc location. */
inline bool
IS_ADHOC_LOC (source_location loc)
{
return (loc & MAX_SOURCE_LOCATION) != loc;
}
/* Get whether location LOC is a "pure" location, or
whether it is an ad-hoc location, or embeds range information. */
bool
pure_location_p (line_maps *set, source_location loc);
/* Given location LOC within SET, strip away any packed range information
or ad-hoc information. */
extern source_location get_pure_location (line_maps *set,
source_location loc);
/* Combine LOC and BLOCK, giving a combined adhoc location. */
inline source_location
COMBINE_LOCATION_DATA (struct line_maps *set,
source_location loc,
source_range src_range,
void *block)
{
return get_combined_adhoc_loc (set, loc, src_range, block);
}
extern void rebuild_location_adhoc_htab (struct line_maps *);
/* Initialize a line map set. SET is the line map set to initialize
and BUILTIN_LOCATION is the special location value to be used as
spelling location for built-in tokens. This BUILTIN_LOCATION has
to be strictly less than RESERVED_LOCATION_COUNT. */
extern void linemap_init (struct line_maps *set,
source_location builtin_location);
/* Check for and warn about line_maps entered but not exited. */
extern void linemap_check_files_exited (struct line_maps *);
/* Return a source_location for the start (i.e. column==0) of
(physical) line TO_LINE in the current source file (as in the
most recent linemap_add). MAX_COLUMN_HINT is the highest column
number we expect to use in this line (but it does not change
the highest_location). */
extern source_location linemap_line_start
(struct line_maps *set, linenum_type to_line, unsigned int max_column_hint);
/* Add a mapping of logical source line to physical source file and
line number. This function creates an "ordinary map", which is a
map that records locations of tokens that are not part of macro
replacement-lists present at a macro expansion point.
The text pointed to by TO_FILE must have a lifetime
at least as long as the lifetime of SET. An empty
TO_FILE means standard input. If reason is LC_LEAVE, and
TO_FILE is NULL, then TO_FILE, TO_LINE and SYSP are given their
natural values considering the file we are returning to.
A call to this function can relocate the previous set of
maps, so any stored line_map pointers should not be used. */
extern const struct line_map *linemap_add
(struct line_maps *, enum lc_reason, unsigned int sysp,
const char *to_file, linenum_type to_line);
/* Given a logical source location, returns the map which the
corresponding (source file, line, column) triplet can be deduced
from. Since the set is built chronologically, the logical lines are
monotonic increasing, and so the list is sorted and we can use a
binary search. If no line map have been allocated yet, this
function returns NULL. */
extern const struct line_map *linemap_lookup
(struct line_maps *, source_location);
/* Returns TRUE if the line table set tracks token locations across
macro expansion, FALSE otherwise. */
bool linemap_tracks_macro_expansion_locs_p (struct line_maps *);
/* Return the name of the macro associated to MACRO_MAP. */
const char* linemap_map_get_macro_name (const line_map_macro *);
/* Return a positive value if LOCATION is the locus of a token that is
located in a system header, O otherwise. It returns 1 if LOCATION
is the locus of a token that is located in a system header, and 2
if LOCATION is the locus of a token located in a C system header
that therefore needs to be extern "C" protected in C++.
Note that this function returns 1 if LOCATION belongs to a token
that is part of a macro replacement-list defined in a system
header, but expanded in a non-system file. */
int linemap_location_in_system_header_p (struct line_maps *,
source_location);
/* Return TRUE if LOCATION is a source code location of a token that is part of
a macro expansion, FALSE otherwise. */
bool linemap_location_from_macro_expansion_p (const struct line_maps *,
source_location);
/* TRUE if LOCATION is a source code location of a token that is part of the
definition of a macro, FALSE otherwise. */
bool linemap_location_from_macro_definition_p (struct line_maps *,
source_location);
/* With the precondition that LOCATION is the locus of a token that is
an argument of a function-like macro MACRO_MAP and appears in the
expansion of MACRO_MAP, return the locus of that argument in the
context of the caller of MACRO_MAP. */
extern source_location linemap_macro_map_loc_unwind_toward_spelling
(line_maps *set, const line_map_macro *macro_map, source_location location);
/* source_location values from 0 to RESERVED_LOCATION_COUNT-1 will
be reserved for libcpp user as special values, no token from libcpp
will contain any of those locations. */
const source_location RESERVED_LOCATION_COUNT = 2;
/* Converts a map and a source_location to source line. */
inline linenum_type
SOURCE_LINE (const line_map_ordinary *ord_map, source_location loc)
{
return ((loc - ord_map->start_location)
>> ord_map->m_column_and_range_bits) + ord_map->to_line;
}
/* Convert a map and source_location to source column number. */
inline linenum_type
SOURCE_COLUMN (const line_map_ordinary *ord_map, source_location loc)
{
return ((loc - ord_map->start_location)
& ((1 << ord_map->m_column_and_range_bits) - 1)) >> ord_map->m_range_bits;
}
/* Return the location of the last source line within an ordinary
map. */
inline source_location
LAST_SOURCE_LINE_LOCATION (const line_map_ordinary *map)
{
return (((map[1].start_location - 1
- map->start_location)
& ~((1 << map->m_column_and_range_bits) - 1))
+ map->start_location);
}
/* Returns the last source line number within an ordinary map. This
is the (last) line of the #include, or other directive, that caused
a map change. */
inline linenum_type
LAST_SOURCE_LINE (const line_map_ordinary *map)
{
return SOURCE_LINE (map, LAST_SOURCE_LINE_LOCATION (map));
}
/* Return the last column number within an ordinary map. */
inline linenum_type
LAST_SOURCE_COLUMN (const line_map_ordinary *map)
{
return SOURCE_COLUMN (map, LAST_SOURCE_LINE_LOCATION (map));
}
/* Returns the map a given map was included from, or NULL if the map
belongs to the main file, i.e, a file that wasn't included by
another one. */
inline line_map_ordinary *
INCLUDED_FROM (struct line_maps *set, const line_map_ordinary *ord_map)
{
return ((ord_map->included_from == -1)
? NULL
: LINEMAPS_ORDINARY_MAP_AT (set, ord_map->included_from));
}
/* True if the map is at the bottom of the include stack. */
inline bool
MAIN_FILE_P (const line_map_ordinary *ord_map)
{
return ord_map->included_from < 0;
}
/* Encode and return a source_location from a column number. The
source line considered is the last source line used to call
linemap_line_start, i.e, the last source line which a location was
encoded from. */
extern source_location
linemap_position_for_column (struct line_maps *, unsigned int);
/* Encode and return a source location from a given line and
column. */
source_location
linemap_position_for_line_and_column (line_maps *set,
const line_map_ordinary *,
linenum_type, unsigned int);
/* Encode and return a source_location starting from location LOC and
shifting it by OFFSET columns. This function does not support
virtual locations. */
source_location
linemap_position_for_loc_and_offset (struct line_maps *set,
source_location loc,
unsigned int offset);
/* Return the file this map is for. */
inline const char *
LINEMAP_FILE (const line_map_ordinary *ord_map)
{
return ord_map->to_file;
}
/* Return the line number this map started encoding location from. */
inline linenum_type
LINEMAP_LINE (const line_map_ordinary *ord_map)
{
return ord_map->to_line;
}
/* Return a positive value if map encodes locations from a system
header, 0 otherwise. Returns 1 if MAP encodes locations in a
system header and 2 if it encodes locations in a C system header
that therefore needs to be extern "C" protected in C++. */
inline unsigned char
LINEMAP_SYSP (const line_map_ordinary *ord_map)
{
return ord_map->sysp;
}
/* Return a positive value if PRE denotes the location of a token that
comes before the token of POST, 0 if PRE denotes the location of
the same token as the token for POST, and a negative value
otherwise. */
int linemap_compare_locations (struct line_maps *set,
source_location pre,
source_location post);
/* Return TRUE if LOC_A denotes the location a token that comes
topogically before the token denoted by location LOC_B, or if they
are equal. */
inline bool
linemap_location_before_p (struct line_maps *set,
source_location loc_a,
source_location loc_b)
{
return linemap_compare_locations (set, loc_a, loc_b) >= 0;
}
typedef struct
{
/* The name of the source file involved. */
const char *file;
/* The line-location in the source file. */
int line;
int column;
void *data;
/* In a system header?. */
bool sysp;
} expanded_location;
/* A location within a rich_location: a caret&range, with
the caret potentially flagged for display. */
struct location_range
{
source_location m_loc;
/* Should a caret be drawn for this range? Typically this is
true for the 0th range, and false for subsequent ranges,
but the Fortran frontend overrides this for rendering things like:
x = x + y
1 2
Error: Shapes for operands at (1) and (2) are not conformable
where "1" and "2" are notionally carets. */
bool m_show_caret_p;
};
/* A partially-embedded vec for use within rich_location for storing
ranges and fix-it hints.
Elements [0..NUM_EMBEDDED) are allocated within m_embed, after
that they are within the dynamically-allocated m_extra.
This allows for static allocation in the common case, whilst
supporting the rarer case of an arbitrary number of elements.
Dynamic allocation is not performed unless it's needed. */
template <typename T, int NUM_EMBEDDED>
class semi_embedded_vec
{
public:
semi_embedded_vec ();
~semi_embedded_vec ();
unsigned int count () const { return m_num; }
T& operator[] (int idx);
const T& operator[] (int idx) const;
void push (const T&);
void truncate (int len);
private:
int m_num;
T m_embedded[NUM_EMBEDDED];
int m_alloc;
T *m_extra;
};
/* Constructor for semi_embedded_vec. In particular, no dynamic allocation
is done. */
template <typename T, int NUM_EMBEDDED>
semi_embedded_vec<T, NUM_EMBEDDED>::semi_embedded_vec ()
: m_num (0), m_alloc (0), m_extra (NULL)
{
}
/* semi_embedded_vec's dtor. Release any dynamically-allocated memory. */
template <typename T, int NUM_EMBEDDED>
semi_embedded_vec<T, NUM_EMBEDDED>::~semi_embedded_vec ()
{
XDELETEVEC (m_extra);
}
/* Look up element IDX, mutably. */
template <typename T, int NUM_EMBEDDED>
T&
semi_embedded_vec<T, NUM_EMBEDDED>::operator[] (int idx)
{
linemap_assert (idx < m_num);
if (idx < NUM_EMBEDDED)
return m_embedded[idx];
else
{
linemap_assert (m_extra != NULL);
return m_extra[idx - NUM_EMBEDDED];
}
}
/* Look up element IDX (const). */
template <typename T, int NUM_EMBEDDED>
const T&
semi_embedded_vec<T, NUM_EMBEDDED>::operator[] (int idx) const
{
linemap_assert (idx < m_num);
if (idx < NUM_EMBEDDED)
return m_embedded[idx];
else
{
linemap_assert (m_extra != NULL);
return m_extra[idx - NUM_EMBEDDED];
}
}
/* Append VALUE to the end of the semi_embedded_vec. */
template <typename T, int NUM_EMBEDDED>
void
semi_embedded_vec<T, NUM_EMBEDDED>::push (const T& value)
{
int idx = m_num++;
if (idx < NUM_EMBEDDED)
m_embedded[idx] = value;
else
{
/* Offset "idx" to be an index within m_extra. */
idx -= NUM_EMBEDDED;
if (NULL == m_extra)
{
linemap_assert (m_alloc == 0);
m_alloc = 16;
m_extra = XNEWVEC (T, m_alloc);
}
else if (idx >= m_alloc)
{
linemap_assert (m_alloc > 0);
m_alloc *= 2;
m_extra = XRESIZEVEC (T, m_extra, m_alloc);
}
linemap_assert (m_extra);
linemap_assert (idx < m_alloc);
m_extra[idx] = value;
}
}
/* Truncate to length LEN. No deallocation is performed. */
template <typename T, int NUM_EMBEDDED>
void
semi_embedded_vec<T, NUM_EMBEDDED>::truncate (int len)
{
linemap_assert (len <= m_num);
m_num = len;
}
class fixit_hint;
/* A "rich" source code location, for use when printing diagnostics.
A rich_location has one or more carets&ranges, where the carets
are optional. These are referred to as "ranges" from here.
Typically the zeroth range has a caret; other ranges sometimes
have carets.
The "primary" location of a rich_location is the caret of range 0,
used for determining the line/column when printing diagnostic
text, such as:
some-file.c:3:1: error: ...etc...
Additional ranges may be added to help the user identify other
pertinent clauses in a diagnostic.
rich_location instances are intended to be allocated on the stack
when generating diagnostics, and to be short-lived.
Examples of rich locations
--------------------------
Example A
*********
int i = "foo";
^
This "rich" location is simply a single range (range 0), with
caret = start = finish at the given point.
Example B
*********
a = (foo && bar)
~~~~~^~~~~~~
This rich location has a single range (range 0), with the caret
at the first "&", and the start/finish at the parentheses.
Compare with example C below.
Example C
*********
a = (foo && bar)
~~~ ^~ ~~~
This rich location has three ranges:
- Range 0 has its caret and start location at the first "&" and
end at the second "&.
- Range 1 has its start and finish at the "f" and "o" of "foo";
the caret is not flagged for display, but is perhaps at the "f"
of "foo".
- Similarly, range 2 has its start and finish at the "b" and "r" of
"bar"; the caret is not flagged for display, but is perhaps at the
"b" of "bar".
Compare with example B above.
Example D (Fortran frontend)
****************************
x = x + y
1 2
This rich location has range 0 at "1", and range 1 at "2".
Both are flagged for caret display. Both ranges have start/finish
equal to their caret point. The frontend overrides the diagnostic
context's default caret character for these ranges.
Example E
*********
printf ("arg0: %i arg1: %s arg2: %i",
^~
100, 101, 102);
~~~
This rich location has two ranges:
- range 0 is at the "%s" with start = caret = "%" and finish at
the "s".
- range 1 has start/finish covering the "101" and is not flagged for
caret printing; it is perhaps at the start of "101".
Fix-it hints
------------
Rich locations can also contain "fix-it hints", giving suggestions
for the user on how to edit their code to fix a problem. These
can be expressed as insertions, replacements, and removals of text.
The edits by default are relative to the zeroth range within the
rich_location, but optionally they can be expressed relative to
other locations (using various overloaded methods of the form
rich_location::add_fixit_*).
For example:
Example F: fix-it hint: insert_before
*************************************
ptr = arr[0];
^~~~~~
&
This rich location has a single range (range 0) covering "arr[0]",
with the caret at the start. The rich location has a single
insertion fix-it hint, inserted before range 0, added via
richloc.add_fixit_insert_before ("&");
Example G: multiple fix-it hints: insert_before and insert_after
****************************************************************
#define FN(ARG0, ARG1, ARG2) fn(ARG0, ARG1, ARG2)
^~~~ ^~~~ ^~~~
( ) ( ) ( )
This rich location has three ranges, covering "arg0", "arg1",
and "arg2", all with caret-printing enabled.
The rich location has 6 insertion fix-it hints: each arg
has a pair of insertion fix-it hints, suggesting wrapping
them with parentheses: one a '(' inserted before,
the other a ')' inserted after, added via
richloc.add_fixit_insert_before (LOC, "(");
and
richloc.add_fixit_insert_after (LOC, ")");
Example H: fix-it hint: removal
*******************************
struct s {int i};;
^
-
This rich location has a single range at the stray trailing
semicolon, along with a single removal fix-it hint, covering
the same range, added via:
richloc.add_fixit_remove ();
Example I: fix-it hint: replace
*******************************
c = s.colour;
^~~~~~
color
This rich location has a single range (range 0) covering "colour",
and a single "replace" fix-it hint, covering the same range,
added via
richloc.add_fixit_replace ("color");
Adding a fix-it hint can fail: for example, attempts to insert content
at the transition between two line maps may fail due to there being no
source_location (aka location_t) value to express the new location.
Attempts to add a fix-it hint within a macro expansion will fail.
There is only limited support for newline characters in fix-it hints:
only hints with newlines which insert an entire new line are permitted,
inserting at the start of a line, and finishing with a newline
(with no interior newline characters). Other attempts to add
fix-it hints containing newline characters will fail.
Similarly, attempts to delete or replace a range *affecting* multiple
lines will fail.
The rich_location API handles these failures gracefully, so that
diagnostics can attempt to add fix-it hints without each needing
extensive checking.
Fix-it hints within a rich_location are "atomic": if any hints can't
be applied, none of them will be (tracked by the m_seen_impossible_fixit
flag), and no fix-its hints will be displayed for that rich_location.
This implies that diagnostic messages need to be worded in such a way
that they make sense whether or not the fix-it hints are displayed,
or that richloc.seen_impossible_fixit_p () should be checked before
issuing the diagnostics. */
class rich_location
{
public:
/* Constructors. */
/* Constructing from a location. */
rich_location (line_maps *set, source_location loc);
/* Destructor. */
~rich_location ();
/* Accessors. */
source_location get_loc () const { return get_loc (0); }
source_location get_loc (unsigned int idx) const;
void
add_range (source_location loc, bool show_caret_p);
void
set_range (line_maps *set, unsigned int idx, source_location loc,
bool show_caret_p);
unsigned int get_num_locations () const { return m_ranges.count (); }
const location_range *get_range (unsigned int idx) const;
location_range *get_range (unsigned int idx);
expanded_location get_expanded_location (unsigned int idx);
void
override_column (int column);
/* Fix-it hints. */
/* Methods for adding insertion fix-it hints. */
/* Suggest inserting NEW_CONTENT immediately before the primary
range's start. */
void
add_fixit_insert_before (const char *new_content);
/* Suggest inserting NEW_CONTENT immediately before the start of WHERE. */
void
add_fixit_insert_before (source_location where,
const char *new_content);
/* Suggest inserting NEW_CONTENT immediately after the end of the primary
range. */
void
add_fixit_insert_after (const char *new_content);
/* Suggest inserting NEW_CONTENT immediately after the end of WHERE. */
void
add_fixit_insert_after (source_location where,
const char *new_content);
/* Methods for adding removal fix-it hints. */
/* Suggest removing the content covered by range 0. */
void
add_fixit_remove ();
/* Suggest removing the content covered between the start and finish
of WHERE. */
void
add_fixit_remove (source_location where);
/* Suggest removing the content covered by SRC_RANGE. */
void
add_fixit_remove (source_range src_range);
/* Methods for adding "replace" fix-it hints. */
/* Suggest replacing the content covered by range 0 with NEW_CONTENT. */
void
add_fixit_replace (const char *new_content);
/* Suggest replacing the content between the start and finish of
WHERE with NEW_CONTENT. */
void
add_fixit_replace (source_location where,
const char *new_content);
/* Suggest replacing the content covered by SRC_RANGE with
NEW_CONTENT. */
void
add_fixit_replace (source_range src_range,
const char *new_content);
unsigned int get_num_fixit_hints () const { return m_fixit_hints.count (); }
fixit_hint *get_fixit_hint (int idx) const { return m_fixit_hints[idx]; }
fixit_hint *get_last_fixit_hint () const;
bool seen_impossible_fixit_p () const { return m_seen_impossible_fixit; }
/* Set this if the fix-it hints are not suitable to be
automatically applied.
For example, if you are suggesting more than one
mutually exclusive solution to a problem, then
it doesn't make sense to apply all of the solutions;
manual intervention is required.
If set, then the fix-it hints in the rich_location will
be printed, but will not be added to generated patches,
or affect the modified version of the file. */
void fixits_cannot_be_auto_applied ()
{
m_fixits_cannot_be_auto_applied = true;
}
bool fixits_can_be_auto_applied_p () const
{
return !m_fixits_cannot_be_auto_applied;
}
private:
bool reject_impossible_fixit (source_location where);
void stop_supporting_fixits ();
void maybe_add_fixit (source_location start,
source_location next_loc,
const char *new_content);
public:
static const int STATICALLY_ALLOCATED_RANGES = 3;
protected:
line_maps *m_line_table;
semi_embedded_vec <location_range, STATICALLY_ALLOCATED_RANGES> m_ranges;
int m_column_override;
bool m_have_expanded_location;
expanded_location m_expanded_location;
static const int MAX_STATIC_FIXIT_HINTS = 2;
semi_embedded_vec <fixit_hint *, MAX_STATIC_FIXIT_HINTS> m_fixit_hints;
bool m_seen_impossible_fixit;
bool m_fixits_cannot_be_auto_applied;
};
/* A fix-it hint: a suggested insertion, replacement, or deletion of text.
We handle these three types of edit with one class, by representing
them as replacement of a half-open range:
[start, next_loc)
Insertions have start == next_loc: "replace" the empty string at the
start location with the new string.
Deletions are replacement with the empty string.
There is only limited support for newline characters in fix-it hints
as noted above in the comment for class rich_location.
A fixit_hint instance can have at most one newline character; if
present, the newline character must be the final character of
the content (preventing e.g. fix-its that split a pre-existing line). */
class fixit_hint
{
public:
fixit_hint (source_location start,
source_location next_loc,
const char *new_content);
~fixit_hint () { free (m_bytes); }
bool affects_line_p (const char *file, int line) const;
source_location get_start_loc () const { return m_start; }
source_location get_next_loc () const { return m_next_loc; }
bool maybe_append (source_location start,
source_location next_loc,
const char *new_content);
const char *get_string () const { return m_bytes; }
size_t get_length () const { return m_len; }
bool insertion_p () const { return m_start == m_next_loc; }
bool ends_with_newline_p () const;
private:
/* We don't use source_range here since, unlike most places,
this is a half-open/half-closed range:
[start, next_loc)
so that we can support insertion via start == next_loc. */
source_location m_start;
source_location m_next_loc;
char *m_bytes;
size_t m_len;
};
/* This is enum is used by the function linemap_resolve_location
below. The meaning of the values is explained in the comment of
that function. */
enum location_resolution_kind
{
LRK_MACRO_EXPANSION_POINT,
LRK_SPELLING_LOCATION,
LRK_MACRO_DEFINITION_LOCATION
};
/* Resolve a virtual location into either a spelling location, an
expansion point location or a token argument replacement point
location. Return the map that encodes the virtual location as well
as the resolved location.
If LOC is *NOT* the location of a token resulting from the
expansion of a macro, then the parameter LRK (which stands for
Location Resolution Kind) is ignored and the resulting location
just equals the one given in argument.
Now if LOC *IS* the location of a token resulting from the
expansion of a macro, this is what happens.
* If LRK is set to LRK_MACRO_EXPANSION_POINT
-------------------------------
The virtual location is resolved to the first macro expansion point
that led to this macro expansion.
* If LRK is set to LRK_SPELLING_LOCATION
-------------------------------------
The virtual location is resolved to the locus where the token has
been spelled in the source. This can follow through all the macro
expansions that led to the token.
* If LRK is set to LRK_MACRO_DEFINITION_LOCATION
--------------------------------------
The virtual location is resolved to the locus of the token in the
context of the macro definition.
If LOC is the locus of a token that is an argument of a
function-like macro [replacing a parameter in the replacement list
of the macro] the virtual location is resolved to the locus of the
parameter that is replaced, in the context of the definition of the
macro.
If LOC is the locus of a token that is not an argument of a
function-like macro, then the function behaves as if LRK was set to
LRK_SPELLING_LOCATION.
If LOC_MAP is not NULL, *LOC_MAP is set to the map encoding the
returned location. Note that if the returned location wasn't originally
encoded by a map, the *MAP is set to NULL. This can happen if LOC
resolves to a location reserved for the client code, like
UNKNOWN_LOCATION or BUILTINS_LOCATION in GCC. */
source_location linemap_resolve_location (struct line_maps *,
source_location loc,
enum location_resolution_kind lrk,
const line_map_ordinary **loc_map);
/* Suppose that LOC is the virtual location of a token coming from the
expansion of a macro M. This function then steps up to get the
location L of the point where M got expanded. If L is a spelling
location inside a macro expansion M', then this function returns
the point where M' was expanded. LOC_MAP is an output parameter.
When non-NULL, *LOC_MAP is set to the map of the returned
location. */
source_location linemap_unwind_toward_expansion (struct line_maps *,
source_location loc,
const struct line_map **loc_map);
/* If LOC is the virtual location of a token coming from the expansion
of a macro M and if its spelling location is reserved (e.g, a
location for a built-in token), then this function unwinds (using
linemap_unwind_toward_expansion) the location until a location that
is not reserved and is not in a system header is reached. In other
words, this unwinds the reserved location until a location that is
in real source code is reached.
Otherwise, if the spelling location for LOC is not reserved or if
LOC doesn't come from the expansion of a macro, the function
returns LOC as is and *MAP is not touched.
*MAP is set to the map of the returned location if the later is
different from LOC. */
source_location linemap_unwind_to_first_non_reserved_loc (struct line_maps *,
source_location loc,
const struct line_map **map);
/* Expand source code location LOC and return a user readable source
code location. LOC must be a spelling (non-virtual) location. If
it's a location < RESERVED_LOCATION_COUNT a zeroed expanded source
location is returned. */
expanded_location linemap_expand_location (struct line_maps *,
const struct line_map *,
source_location loc);
/* Statistics about maps allocation and usage as returned by
linemap_get_statistics. */
struct linemap_stats
{
long num_ordinary_maps_allocated;
long num_ordinary_maps_used;
long ordinary_maps_allocated_size;
long ordinary_maps_used_size;
long num_expanded_macros;
long num_macro_tokens;
long num_macro_maps_used;
long macro_maps_allocated_size;
long macro_maps_used_size;
long macro_maps_locations_size;
long duplicated_macro_maps_locations_size;
long adhoc_table_size;
long adhoc_table_entries_used;
};
/* Return the highest location emitted for a given file for which
there is a line map in SET. FILE_NAME is the file name to
consider. If the function returns TRUE, *LOC is set to the highest
location emitted for that file. */
bool linemap_get_file_highest_location (struct line_maps * set,
const char *file_name,
source_location *loc);
/* Compute and return statistics about the memory consumption of some
parts of the line table SET. */
void linemap_get_statistics (struct line_maps *, struct linemap_stats *);
/* Dump debugging information about source location LOC into the file
stream STREAM. SET is the line map set LOC comes from. */
void linemap_dump_location (struct line_maps *, source_location, FILE *);
/* Dump line map at index IX in line table SET to STREAM. If STREAM
is NULL, use stderr. IS_MACRO is true if the caller wants to
dump a macro map, false otherwise. */
void linemap_dump (FILE *, struct line_maps *, unsigned, bool);
/* Dump line table SET to STREAM. If STREAM is NULL, stderr is used.
NUM_ORDINARY specifies how many ordinary maps to dump. NUM_MACRO
specifies how many macro maps to dump. */
void line_table_dump (FILE *, struct line_maps *, unsigned int, unsigned int);
/* An enum for distinguishing the various parts within a source_location. */
enum location_aspect
{
LOCATION_ASPECT_CARET,
LOCATION_ASPECT_START,
LOCATION_ASPECT_FINISH
};
/* The rich_location class requires a way to expand source_location instances.
We would directly use expand_location_to_spelling_point, which is
implemented in gcc/input.c, but we also need to use it for rich_location
within genmatch.c.
Hence we require client code of libcpp to implement the following
symbol. */
extern expanded_location
linemap_client_expand_location_to_spelling_point (source_location,
enum location_aspect);
#endif /* !LIBCPP_LINE_MAP_H */
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