1	//===--- TextDiagnostic.cpp - Text Diagnostic Pretty-Printing -------------===//
2	//
3	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4	// See https://llvm.org/LICENSE.txt for license information.
5	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6	//
7	//===----------------------------------------------------------------------===//
8
9	#include "clang/Frontend/TextDiagnostic.h"
10	#include "clang/Basic/CharInfo.h"
11	#include "clang/Basic/DiagnosticOptions.h"
12	#include "clang/Basic/FileManager.h"
13	#include "clang/Basic/SourceManager.h"
14	#include "clang/Lex/Lexer.h"
15	#include "clang/Lex/Preprocessor.h"
16	#include "llvm/ADT/SmallString.h"
17	#include "llvm/ADT/StringExtras.h"
18	#include "llvm/Support/ConvertUTF.h"
19	#include "llvm/Support/ErrorHandling.h"
20	#include "llvm/Support/Locale.h"
21	#include "llvm/Support/Path.h"
22	#include "llvm/Support/raw_ostream.h"
23	#include <algorithm>
24	#include <optional>
25
26	using namespace clang;
27
28	static const enum raw_ostream::Colors noteColor = raw_ostream::CYAN;
29	static const enum raw_ostream::Colors remarkColor =
30	raw_ostream::BLUE;
31	static const enum raw_ostream::Colors fixitColor =
32	raw_ostream::GREEN;
33	static const enum raw_ostream::Colors caretColor =
34	raw_ostream::GREEN;
35	static const enum raw_ostream::Colors warningColor =
36	raw_ostream::MAGENTA;
37	static const enum raw_ostream::Colors templateColor =
38	raw_ostream::CYAN;
39	static const enum raw_ostream::Colors errorColor = raw_ostream::RED;
40	static const enum raw_ostream::Colors fatalColor = raw_ostream::RED;
41	// Used for changing only the bold attribute.
42	static const enum raw_ostream::Colors savedColor =
43	raw_ostream::SAVEDCOLOR;
44
45	// Magenta is taken for 'warning'. Red is already 'error' and 'cyan'
46	// is already taken for 'note'. Green is already used to underline
47	// source ranges. White and black are bad because of the usual
48	// terminal backgrounds. Which leaves us only with TWO options.
49	static constexpr raw_ostream::Colors CommentColor = raw_ostream::YELLOW;
50	static constexpr raw_ostream::Colors LiteralColor = raw_ostream::GREEN;
51	static constexpr raw_ostream::Colors KeywordColor = raw_ostream::BLUE;
52
53	/// Add highlights to differences in template strings.
54	static void applyTemplateHighlighting(raw_ostream &OS, StringRef Str,
55	bool &Normal, bool Bold) {
56	while (true) {
57	size_t Pos = Str.find(C: ToggleHighlight);
58	OS << Str.slice(Start: 0, End: Pos);
59	if (Pos == StringRef::npos)
60	break;
61
62	Str = Str.substr(Start: Pos + 1);
63	if (Normal)
64	OS.changeColor(Color: templateColor, Bold: true);
65	else {
66	OS.resetColor();
67	if (Bold)
68	OS.changeColor(Color: savedColor, Bold: true);
69	}
70	Normal = !Normal;
71	}
72	}
73
74	/// Number of spaces to indent when word-wrapping.
75	const unsigned WordWrapIndentation = 6;
76
77	static int bytesSincePreviousTabOrLineBegin(StringRef SourceLine, size_t i) {
78	int bytes = 0;
79	while (0<i) {
80	if (SourceLine[--i]=='\t')
81	break;
82	++bytes;
83	}
84	return bytes;
85	}
86
87	/// returns a printable representation of first item from input range
88	///
89	/// This function returns a printable representation of the next item in a line
90	/// of source. If the next byte begins a valid and printable character, that
91	/// character is returned along with 'true'.
92	///
93	/// Otherwise, if the next byte begins a valid, but unprintable character, a
94	/// printable, escaped representation of the character is returned, along with
95	/// 'false'. Otherwise a printable, escaped representation of the next byte
96	/// is returned along with 'false'.
97	///
98	/// \note The index is updated to be used with a subsequent call to
99	/// printableTextForNextCharacter.
100	///
101	/// \param SourceLine The line of source
102	/// \param I Pointer to byte index,
103	/// \param TabStop used to expand tabs
104	/// \return pair(printable text, 'true' iff original text was printable)
105	///
106	static std::pair<SmallString<16>, bool>
107	printableTextForNextCharacter(StringRef SourceLine, size_t *I,
108	unsigned TabStop) {
109	assert(I && "I must not be null");
110	assert(*I < SourceLine.size() && "must point to a valid index");
111
112	if (SourceLine[*I] == '\t') {
113	assert(0 < TabStop && TabStop <= DiagnosticOptions::MaxTabStop &&
114	"Invalid -ftabstop value");
115	unsigned Col = bytesSincePreviousTabOrLineBegin(SourceLine, i: *I);
116	unsigned NumSpaces = TabStop - (Col % TabStop);
117	assert(0 < NumSpaces && NumSpaces <= TabStop
118	&& "Invalid computation of space amt");
119	++(*I);
120
121	SmallString<16> ExpandedTab;
122	ExpandedTab.assign(NumElts: NumSpaces, Elt: ' ');
123	return std::make_pair(x&: ExpandedTab, y: true);
124	}
125
126	const unsigned char *Begin = SourceLine.bytes_begin() + *I;
127
128	// Fast path for the common ASCII case.
129	if (*Begin < 0x80 && llvm::sys::locale::isPrint(c: *Begin)) {
130	++(*I);
131	return std::make_pair(x: SmallString<16>(Begin, Begin + 1), y: true);
132	}
133	unsigned CharSize = llvm::getNumBytesForUTF8(firstByte: *Begin);
134	const unsigned char *End = Begin + CharSize;
135
136	// Convert it to UTF32 and check if it's printable.
137	if (End <= SourceLine.bytes_end() && llvm::isLegalUTF8Sequence(source: Begin, sourceEnd: End)) {
138	llvm::UTF32 C;
139	llvm::UTF32 *CPtr = &C;
140
141	// Begin and end before conversion.
142	unsigned char const *OriginalBegin = Begin;
143	llvm::ConversionResult Res = llvm::ConvertUTF8toUTF32(
144	sourceStart: &Begin, sourceEnd: End, targetStart: &CPtr, targetEnd: CPtr + 1, flags: llvm::strictConversion);
145	(void)Res;
146	assert(Res == llvm::conversionOK);
147	assert(OriginalBegin < Begin);
148	assert((Begin - OriginalBegin) == CharSize);
149
150	(*I) += (Begin - OriginalBegin);
151
152	// Valid, multi-byte, printable UTF8 character.
153	if (llvm::sys::locale::isPrint(c: C))
154	return std::make_pair(x: SmallString<16>(OriginalBegin, End), y: true);
155
156	// Valid but not printable.
157	SmallString<16> Str("<U+>");
158	while (C) {
159	Str.insert(I: Str.begin() + 3, Elt: llvm::hexdigit(X: C % 16));
160	C /= 16;
161	}
162	while (Str.size() < 8)
163	Str.insert(I: Str.begin() + 3, Elt: llvm::hexdigit(X: 0));
164	return std::make_pair(x&: Str, y: false);
165	}
166
167	// Otherwise, not printable since it's not valid UTF8.
168	SmallString<16> ExpandedByte("<XX>");
169	unsigned char Byte = SourceLine[*I];
170	ExpandedByte[1] = llvm::hexdigit(X: Byte / 16);
171	ExpandedByte[2] = llvm::hexdigit(X: Byte % 16);
172	++(*I);
173	return std::make_pair(x&: ExpandedByte, y: false);
174	}
175
176	static void expandTabs(std::string &SourceLine, unsigned TabStop) {
177	size_t I = SourceLine.size();
178	while (I > 0) {
179	I--;
180	if (SourceLine[I] != '\t')
181	continue;
182	size_t TmpI = I;
183	auto [Str, Printable] =
184	printableTextForNextCharacter(SourceLine, I: &TmpI, TabStop);
185	SourceLine.replace(pos: I, n1: 1, s: Str.c_str());
186	}
187	}
188
189	/// \p BytesOut:
190	/// A mapping from columns to the byte of the source line that produced the
191	/// character displaying at that column. This is the inverse of \p ColumnsOut.
192	///
193	/// The last element in the array is the number of bytes in the source string.
194	///
195	/// example: (given a tabstop of 8)
196	///
197	/// "a \t \u3042" -> {0,1,2,-1,-1,-1,-1,-1,3,4,-1,7}
198	///
199	/// (\\u3042 is represented in UTF-8 by three bytes and takes two columns to
200	/// display)
201	///
202	/// \p ColumnsOut:
203	/// A mapping from the bytes
204	/// of the printable representation of the line to the columns those printable
205	/// characters will appear at (numbering the first column as 0).
206	///
207	/// If a byte 'i' corresponds to multiple columns (e.g. the byte contains a tab
208	/// character) then the array will map that byte to the first column the
209	/// tab appears at and the next value in the map will have been incremented
210	/// more than once.
211	///
212	/// If a byte is the first in a sequence of bytes that together map to a single
213	/// entity in the output, then the array will map that byte to the appropriate
214	/// column while the subsequent bytes will be -1.
215	///
216	/// The last element in the array does not correspond to any byte in the input
217	/// and instead is the number of columns needed to display the source
218	///
219	/// example: (given a tabstop of 8)
220	///
221	/// "a \t \u3042" -> {0,1,2,8,9,-1,-1,11}
222	///
223	/// (\\u3042 is represented in UTF-8 by three bytes and takes two columns to
224	/// display)
225	static void genColumnByteMapping(StringRef SourceLine, unsigned TabStop,
226	SmallVectorImpl<int> &BytesOut,
227	SmallVectorImpl<int> &ColumnsOut) {
228	assert(BytesOut.empty());
229	assert(ColumnsOut.empty());
230
231	if (SourceLine.empty()) {
232	BytesOut.resize(N: 1u, NV: 0);
233	ColumnsOut.resize(N: 1u, NV: 0);
234	return;
235	}
236
237	ColumnsOut.resize(N: SourceLine.size() + 1, NV: -1);
238
239	int Columns = 0;
240	size_t I = 0;
241	while (I < SourceLine.size()) {
242	ColumnsOut[I] = Columns;
243	BytesOut.resize(N: Columns + 1, NV: -1);
244	BytesOut.back() = I;
245	auto [Str, Printable] =
246	printableTextForNextCharacter(SourceLine, I: &I, TabStop);
247	Columns += llvm::sys::locale::columnWidth(s: Str);
248	}
249
250	ColumnsOut.back() = Columns;
251	BytesOut.resize(N: Columns + 1, NV: -1);
252	BytesOut.back() = I;
253	}
254
255	namespace {
256	struct SourceColumnMap {
257	SourceColumnMap(StringRef SourceLine, unsigned TabStop)
258	: m_SourceLine(SourceLine) {
259
260	genColumnByteMapping(SourceLine, TabStop, BytesOut&: m_columnToByte, ColumnsOut&: m_byteToColumn);
261
262	assert(m_byteToColumn.size()==SourceLine.size()+1);
263	assert(0 < m_byteToColumn.size() && 0 < m_columnToByte.size());
264	assert(m_byteToColumn.size()
265	== static_cast<unsigned>(m_columnToByte.back()+1));
266	assert(static_cast<unsigned>(m_byteToColumn.back()+1)
267	== m_columnToByte.size());
268	}
269	int columns() const { return m_byteToColumn.back(); }
270	int bytes() const { return m_columnToByte.back(); }
271
272	/// Map a byte to the column which it is at the start of, or return -1
273	/// if it is not at the start of a column (for a UTF-8 trailing byte).
274	int byteToColumn(int n) const {
275	assert(0<=n && n<static_cast<int>(m_byteToColumn.size()));
276	return m_byteToColumn[n];
277	}
278
279	/// Map a byte to the first column which contains it.
280	int byteToContainingColumn(int N) const {
281	assert(0 <= N && N < static_cast<int>(m_byteToColumn.size()));
282	while (m_byteToColumn[N] == -1)
283	--N;
284	return m_byteToColumn[N];
285	}
286
287	/// Map a column to the byte which starts the column, or return -1 if
288	/// the column the second or subsequent column of an expanded tab or similar
289	/// multi-column entity.
290	int columnToByte(int n) const {
291	assert(0<=n && n<static_cast<int>(m_columnToByte.size()));
292	return m_columnToByte[n];
293	}
294
295	/// Map from a byte index to the next byte which starts a column.
296	int startOfNextColumn(int N) const {
297	assert(0 <= N && N < static_cast<int>(m_byteToColumn.size() - 1));
298	while (byteToColumn(n: ++N) == -1) {}
299	return N;
300	}
301
302	/// Map from a byte index to the previous byte which starts a column.
303	int startOfPreviousColumn(int N) const {
304	assert(0 < N && N < static_cast<int>(m_byteToColumn.size()));
305	while (byteToColumn(n: --N) == -1) {}
306	return N;
307	}
308
309	StringRef getSourceLine() const {
310	return m_SourceLine;
311	}
312
313	private:
314	const std::string m_SourceLine;
315	SmallVector<int,200> m_byteToColumn;
316	SmallVector<int,200> m_columnToByte;
317	};
318	} // end anonymous namespace
319
320	/// When the source code line we want to print is too long for
321	/// the terminal, select the "interesting" region.
322	static void selectInterestingSourceRegion(std::string &SourceLine,
323	std::string &CaretLine,
324	std::string &FixItInsertionLine,
325	unsigned Columns,
326	const SourceColumnMap &map) {
327	unsigned CaretColumns = CaretLine.size();
328	unsigned FixItColumns = llvm::sys::locale::columnWidth(s: FixItInsertionLine);
329	unsigned MaxColumns = std::max(a: static_cast<unsigned>(map.columns()),
330	b: std::max(a: CaretColumns, b: FixItColumns));
331	// if the number of columns is less than the desired number we're done
332	if (MaxColumns <= Columns)
333	return;
334
335	// No special characters are allowed in CaretLine.
336	assert(llvm::none_of(CaretLine, [](char c) { return c < ' ' || '~' < c; }));
337
338	// Find the slice that we need to display the full caret line
339	// correctly.
340	unsigned CaretStart = 0, CaretEnd = CaretLine.size();
341	for (; CaretStart != CaretEnd; ++CaretStart)
342	if (!isWhitespace(c: CaretLine[CaretStart]))
343	break;
344
345	for (; CaretEnd != CaretStart; --CaretEnd)
346	if (!isWhitespace(c: CaretLine[CaretEnd - 1]))
347	break;
348
349	// caret has already been inserted into CaretLine so the above whitespace
350	// check is guaranteed to include the caret
351
352	// If we have a fix-it line, make sure the slice includes all of the
353	// fix-it information.
354	if (!FixItInsertionLine.empty()) {
355	unsigned FixItStart = 0, FixItEnd = FixItInsertionLine.size();
356	for (; FixItStart != FixItEnd; ++FixItStart)
357	if (!isWhitespace(c: FixItInsertionLine[FixItStart]))
358	break;
359
360	for (; FixItEnd != FixItStart; --FixItEnd)
361	if (!isWhitespace(c: FixItInsertionLine[FixItEnd - 1]))
362	break;
363
364	// We can safely use the byte offset FixItStart as the column offset
365	// because the characters up until FixItStart are all ASCII whitespace
366	// characters.
367	unsigned FixItStartCol = FixItStart;
368	unsigned FixItEndCol
369	= llvm::sys::locale::columnWidth(s: FixItInsertionLine.substr(pos: 0, n: FixItEnd));
370
371	CaretStart = std::min(a: FixItStartCol, b: CaretStart);
372	CaretEnd = std::max(a: FixItEndCol, b: CaretEnd);
373	}
374
375	// CaretEnd may have been set at the middle of a character
376	// If it's not at a character's first column then advance it past the current
377	// character.
378	while (static_cast<int>(CaretEnd) < map.columns() &&
379	-1 == map.columnToByte(n: CaretEnd))
380	++CaretEnd;
381
382	assert((static_cast<int>(CaretStart) > map.columns() ||
383	-1!=map.columnToByte(CaretStart)) &&
384	"CaretStart must not point to a column in the middle of a source"
385	" line character");
386	assert((static_cast<int>(CaretEnd) > map.columns() ||
387	-1!=map.columnToByte(CaretEnd)) &&
388	"CaretEnd must not point to a column in the middle of a source line"
389	" character");
390
391	// CaretLine[CaretStart, CaretEnd) contains all of the interesting
392	// parts of the caret line. While this slice is smaller than the
393	// number of columns we have, try to grow the slice to encompass
394	// more context.
395
396	unsigned SourceStart = map.columnToByte(n: std::min<unsigned>(a: CaretStart,
397	b: map.columns()));
398	unsigned SourceEnd = map.columnToByte(n: std::min<unsigned>(a: CaretEnd,
399	b: map.columns()));
400
401	unsigned CaretColumnsOutsideSource = CaretEnd-CaretStart
402	- (map.byteToColumn(n: SourceEnd)-map.byteToColumn(n: SourceStart));
403
404	char const *front_ellipse = " ...";
405	char const *front_space = " ";
406	char const *back_ellipse = "...";
407	unsigned ellipses_space = strlen(s: front_ellipse) + strlen(s: back_ellipse);
408
409	unsigned TargetColumns = Columns;
410	// Give us extra room for the ellipses
411	// and any of the caret line that extends past the source
412	if (TargetColumns > ellipses_space+CaretColumnsOutsideSource)
413	TargetColumns -= ellipses_space+CaretColumnsOutsideSource;
414
415	while (SourceStart>0 || SourceEnd<SourceLine.size()) {
416	bool ExpandedRegion = false;
417
418	if (SourceStart>0) {
419	unsigned NewStart = map.startOfPreviousColumn(N: SourceStart);
420
421	// Skip over any whitespace we see here; we're looking for
422	// another bit of interesting text.
423	// FIXME: Detect non-ASCII whitespace characters too.
424	while (NewStart && isWhitespace(c: SourceLine[NewStart]))
425	NewStart = map.startOfPreviousColumn(N: NewStart);
426
427	// Skip over this bit of "interesting" text.
428	while (NewStart) {
429	unsigned Prev = map.startOfPreviousColumn(N: NewStart);
430	if (isWhitespace(c: SourceLine[Prev]))
431	break;
432	NewStart = Prev;
433	}
434
435	assert(map.byteToColumn(NewStart) != -1);
436	unsigned NewColumns = map.byteToColumn(n: SourceEnd) -
437	map.byteToColumn(n: NewStart);
438	if (NewColumns <= TargetColumns) {
439	SourceStart = NewStart;
440	ExpandedRegion = true;
441	}
442	}
443
444	if (SourceEnd<SourceLine.size()) {
445	unsigned NewEnd = map.startOfNextColumn(N: SourceEnd);
446
447	// Skip over any whitespace we see here; we're looking for
448	// another bit of interesting text.
449	// FIXME: Detect non-ASCII whitespace characters too.
450	while (NewEnd < SourceLine.size() && isWhitespace(c: SourceLine[NewEnd]))
451	NewEnd = map.startOfNextColumn(N: NewEnd);
452
453	// Skip over this bit of "interesting" text.
454	while (NewEnd < SourceLine.size() && isWhitespace(c: SourceLine[NewEnd]))
455	NewEnd = map.startOfNextColumn(N: NewEnd);
456
457	assert(map.byteToColumn(NewEnd) != -1);
458	unsigned NewColumns = map.byteToColumn(n: NewEnd) -
459	map.byteToColumn(n: SourceStart);
460	if (NewColumns <= TargetColumns) {
461	SourceEnd = NewEnd;
462	ExpandedRegion = true;
463	}
464	}
465
466	if (!ExpandedRegion)
467	break;
468	}
469
470	CaretStart = map.byteToColumn(n: SourceStart);
471	CaretEnd = map.byteToColumn(n: SourceEnd) + CaretColumnsOutsideSource;
472
473	// [CaretStart, CaretEnd) is the slice we want. Update the various
474	// output lines to show only this slice.
475	assert(CaretStart!=(unsigned)-1 && CaretEnd!=(unsigned)-1 &&
476	SourceStart!=(unsigned)-1 && SourceEnd!=(unsigned)-1);
477	assert(SourceStart <= SourceEnd);
478	assert(CaretStart <= CaretEnd);
479
480	unsigned BackColumnsRemoved
481	= map.byteToColumn(n: SourceLine.size())-map.byteToColumn(n: SourceEnd);
482	unsigned FrontColumnsRemoved = CaretStart;
483	unsigned ColumnsKept = CaretEnd-CaretStart;
484
485	// We checked up front that the line needed truncation
486	assert(FrontColumnsRemoved+ColumnsKept+BackColumnsRemoved > Columns);
487
488	// The line needs some truncation, and we'd prefer to keep the front
489	// if possible, so remove the back
490	if (BackColumnsRemoved > strlen(s: back_ellipse))
491	SourceLine.replace(pos: SourceEnd, n1: std::string::npos, s: back_ellipse);
492
493	// If that's enough then we're done
494	if (FrontColumnsRemoved+ColumnsKept <= Columns)
495	return;
496
497	// Otherwise remove the front as well
498	if (FrontColumnsRemoved > strlen(s: front_ellipse)) {
499	SourceLine.replace(pos: 0, n1: SourceStart, s: front_ellipse);
500	CaretLine.replace(pos: 0, n1: CaretStart, s: front_space);
501	if (!FixItInsertionLine.empty())
502	FixItInsertionLine.replace(pos: 0, n1: CaretStart, s: front_space);
503	}
504	}
505
506	/// Skip over whitespace in the string, starting at the given
507	/// index.
508	///
509	/// \returns The index of the first non-whitespace character that is
510	/// greater than or equal to Idx or, if no such character exists,
511	/// returns the end of the string.
512	static unsigned skipWhitespace(unsigned Idx, StringRef Str, unsigned Length) {
513	while (Idx < Length && isWhitespace(c: Str[Idx]))
514	++Idx;
515	return Idx;
516	}
517
518	/// If the given character is the start of some kind of
519	/// balanced punctuation (e.g., quotes or parentheses), return the
520	/// character that will terminate the punctuation.
521	///
522	/// \returns The ending punctuation character, if any, or the NULL
523	/// character if the input character does not start any punctuation.
524	static inline char findMatchingPunctuation(char c) {
525	switch (c) {
526	case '\'': return '\'';
527	case '`': return '\'';
528	case '"': return '"';
529	case '(': return ')';
530	case '[': return ']';
531	case '{': return '}';
532	default: break;
533	}
534
535	return 0;
536	}
537
538	/// Find the end of the word starting at the given offset
539	/// within a string.
540	///
541	/// \returns the index pointing one character past the end of the
542	/// word.
543	static unsigned findEndOfWord(unsigned Start, StringRef Str,
544	unsigned Length, unsigned Column,
545	unsigned Columns) {
546	assert(Start < Str.size() && "Invalid start position!");
547	unsigned End = Start + 1;
548
549	// If we are already at the end of the string, take that as the word.
550	if (End == Str.size())
551	return End;
552
553	// Determine if the start of the string is actually opening
554	// punctuation, e.g., a quote or parentheses.
555	char EndPunct = findMatchingPunctuation(c: Str[Start]);
556	if (!EndPunct) {
557	// This is a normal word. Just find the first space character.
558	while (End < Length && !isWhitespace(c: Str[End]))
559	++End;
560	return End;
561	}
562
563	// We have the start of a balanced punctuation sequence (quotes,
564	// parentheses, etc.). Determine the full sequence is.
565	SmallString<16> PunctuationEndStack;
566	PunctuationEndStack.push_back(Elt: EndPunct);
567	while (End < Length && !PunctuationEndStack.empty()) {
568	if (Str[End] == PunctuationEndStack.back())
569	PunctuationEndStack.pop_back();
570	else if (char SubEndPunct = findMatchingPunctuation(c: Str[End]))
571	PunctuationEndStack.push_back(Elt: SubEndPunct);
572
573	++End;
574	}
575
576	// Find the first space character after the punctuation ended.
577	while (End < Length && !isWhitespace(c: Str[End]))
578	++End;
579
580	unsigned PunctWordLength = End - Start;
581	if (// If the word fits on this line
582	Column + PunctWordLength <= Columns ||
583	// ... or the word is "short enough" to take up the next line
584	// without too much ugly white space
585	PunctWordLength < Columns/3)
586	return End; // Take the whole thing as a single "word".
587
588	// The whole quoted/parenthesized string is too long to print as a
589	// single "word". Instead, find the "word" that starts just after
590	// the punctuation and use that end-point instead. This will recurse
591	// until it finds something small enough to consider a word.
592	return findEndOfWord(Start: Start + 1, Str, Length, Column: Column + 1, Columns);
593	}
594
595	/// Print the given string to a stream, word-wrapping it to
596	/// some number of columns in the process.
597	///
598	/// \param OS the stream to which the word-wrapping string will be
599	/// emitted.
600	/// \param Str the string to word-wrap and output.
601	/// \param Columns the number of columns to word-wrap to.
602	/// \param Column the column number at which the first character of \p
603	/// Str will be printed. This will be non-zero when part of the first
604	/// line has already been printed.
605	/// \param Bold if the current text should be bold
606	/// \returns true if word-wrapping was required, or false if the
607	/// string fit on the first line.
608	static bool printWordWrapped(raw_ostream &OS, StringRef Str, unsigned Columns,
609	unsigned Column, bool Bold) {
610	const unsigned Length = std::min(a: Str.find(C: '\n'), b: Str.size());
611	bool TextNormal = true;
612
613	bool Wrapped = false;
614	for (unsigned WordStart = 0, WordEnd; WordStart < Length;
615	WordStart = WordEnd) {
616	// Find the beginning of the next word.
617	WordStart = skipWhitespace(Idx: WordStart, Str, Length);
618	if (WordStart == Length)
619	break;
620
621	// Find the end of this word.
622	WordEnd = findEndOfWord(Start: WordStart, Str, Length, Column, Columns);
623
624	// Does this word fit on the current line?
625	unsigned WordLength = WordEnd - WordStart;
626	if (Column + WordLength < Columns) {
627	// This word fits on the current line; print it there.
628	if (WordStart) {
629	OS << ' ';
630	Column += 1;
631	}
632	applyTemplateHighlighting(OS, Str: Str.substr(Start: WordStart, N: WordLength),
633	Normal&: TextNormal, Bold);
634	Column += WordLength;
635	continue;
636	}
637
638	// This word does not fit on the current line, so wrap to the next
639	// line.
640	OS << '\n';
641	OS.indent(NumSpaces: WordWrapIndentation);
642	applyTemplateHighlighting(OS, Str: Str.substr(Start: WordStart, N: WordLength),
643	Normal&: TextNormal, Bold);
644	Column = WordWrapIndentation + WordLength;
645	Wrapped = true;
646	}
647
648	// Append any remaning text from the message with its existing formatting.
649	applyTemplateHighlighting(OS, Str: Str.substr(Start: Length), Normal&: TextNormal, Bold);
650
651	assert(TextNormal && "Text highlighted at end of diagnostic message.");
652
653	return Wrapped;
654	}
655
656	TextDiagnostic::TextDiagnostic(raw_ostream &OS, const LangOptions &LangOpts,
657	DiagnosticOptions *DiagOpts,
658	const Preprocessor *PP)
659	: DiagnosticRenderer(LangOpts, DiagOpts), OS(OS), PP(PP) {}
660
661	TextDiagnostic::~TextDiagnostic() {}
662
663	void TextDiagnostic::emitDiagnosticMessage(
664	FullSourceLoc Loc, PresumedLoc PLoc, DiagnosticsEngine::Level Level,
665	StringRef Message, ArrayRef<clang::CharSourceRange> Ranges,
666	DiagOrStoredDiag D) {
667	uint64_t StartOfLocationInfo = OS.tell();
668
669	// Emit the location of this particular diagnostic.
670	if (Loc.isValid())
671	emitDiagnosticLoc(Loc, PLoc, Level, Ranges);
672
673	if (DiagOpts->ShowColors)
674	OS.resetColor();
675
676	if (DiagOpts->ShowLevel)
677	printDiagnosticLevel(OS, Level, ShowColors: DiagOpts->ShowColors);
678	printDiagnosticMessage(OS,
679	/*IsSupplemental*/ Level == DiagnosticsEngine::Note,
680	Message, CurrentColumn: OS.tell() - StartOfLocationInfo,
681	Columns: DiagOpts->MessageLength, ShowColors: DiagOpts->ShowColors);
682	}
683
684	/*static*/ void
685	TextDiagnostic::printDiagnosticLevel(raw_ostream &OS,
686	DiagnosticsEngine::Level Level,
687	bool ShowColors) {
688	if (ShowColors) {
689	// Print diagnostic category in bold and color
690	switch (Level) {
691	case DiagnosticsEngine::Ignored:
692	llvm_unreachable("Invalid diagnostic type");
693	case DiagnosticsEngine::Note: OS.changeColor(Color: noteColor, Bold: true); break;
694	case DiagnosticsEngine::Remark: OS.changeColor(Color: remarkColor, Bold: true); break;
695	case DiagnosticsEngine::Warning: OS.changeColor(Color: warningColor, Bold: true); break;
696	case DiagnosticsEngine::Error: OS.changeColor(Color: errorColor, Bold: true); break;
697	case DiagnosticsEngine::Fatal: OS.changeColor(Color: fatalColor, Bold: true); break;
698	}
699	}
700
701	switch (Level) {
702	case DiagnosticsEngine::Ignored:
703	llvm_unreachable("Invalid diagnostic type");
704	case DiagnosticsEngine::Note: OS << "note: "; break;
705	case DiagnosticsEngine::Remark: OS << "remark: "; break;
706	case DiagnosticsEngine::Warning: OS << "warning: "; break;
707	case DiagnosticsEngine::Error: OS << "error: "; break;
708	case DiagnosticsEngine::Fatal: OS << "fatal error: "; break;
709	}
710
711	if (ShowColors)
712	OS.resetColor();
713	}
714
715	/*static*/
716	void TextDiagnostic::printDiagnosticMessage(raw_ostream &OS,
717	bool IsSupplemental,
718	StringRef Message,
719	unsigned CurrentColumn,
720	unsigned Columns, bool ShowColors) {
721	bool Bold = false;
722	if (ShowColors && !IsSupplemental) {
723	// Print primary diagnostic messages in bold and without color, to visually
724	// indicate the transition from continuation notes and other output.
725	OS.changeColor(Color: savedColor, Bold: true);
726	Bold = true;
727	}
728
729	if (Columns)
730	printWordWrapped(OS, Str: Message, Columns, Column: CurrentColumn, Bold);
731	else {
732	bool Normal = true;
733	applyTemplateHighlighting(OS, Str: Message, Normal, Bold);
734	assert(Normal && "Formatting should have returned to normal");
735	}
736
737	if (ShowColors)
738	OS.resetColor();
739	OS << '\n';
740	}
741
742	void TextDiagnostic::emitFilename(StringRef Filename, const SourceManager &SM) {
743	#ifdef _WIN32
744	SmallString<4096> TmpFilename;
745	#endif
746	if (DiagOpts->AbsolutePath) {
747	auto File = SM.getFileManager().getOptionalFileRef(Filename);
748	if (File) {
749	// We want to print a simplified absolute path, i. e. without "dots".
750	//
751	// The hardest part here are the paths like "<part1>/<link>/../<part2>".
752	// On Unix-like systems, we cannot just collapse "<link>/..", because
753	// paths are resolved sequentially, and, thereby, the path
754	// "<part1>/<part2>" may point to a different location. That is why
755	// we use FileManager::getCanonicalName(), which expands all indirections
756	// with llvm::sys::fs::real_path() and caches the result.
757	//
758	// On the other hand, it would be better to preserve as much of the
759	// original path as possible, because that helps a user to recognize it.
760	// real_path() expands all links, which sometimes too much. Luckily,
761	// on Windows we can just use llvm::sys::path::remove_dots(), because,
762	// on that system, both aforementioned paths point to the same place.
763	#ifdef _WIN32
764	TmpFilename = File->getName();
765	llvm::sys::fs::make_absolute(TmpFilename);
766	llvm::sys::path::native(TmpFilename);
767	llvm::sys::path::remove_dots(TmpFilename, /* remove_dot_dot */ true);
768	Filename = StringRef(TmpFilename.data(), TmpFilename.size());
769	#else
770	Filename = SM.getFileManager().getCanonicalName(File: *File);
771	#endif
772	}
773	}
774
775	OS << Filename;
776	}
777
778	/// Print out the file/line/column information and include trace.
779	///
780	/// This method handles the emission of the diagnostic location information.
781	/// This includes extracting as much location information as is present for
782	/// the diagnostic and printing it, as well as any include stack or source
783	/// ranges necessary.
784	void TextDiagnostic::emitDiagnosticLoc(FullSourceLoc Loc, PresumedLoc PLoc,
785	DiagnosticsEngine::Level Level,
786	ArrayRef<CharSourceRange> Ranges) {
787	if (PLoc.isInvalid()) {
788	// At least print the file name if available:
789	if (FileID FID = Loc.getFileID(); FID.isValid()) {
790	if (OptionalFileEntryRef FE = Loc.getFileEntryRef()) {
791	emitFilename(Filename: FE->getName(), SM: Loc.getManager());
792	OS << ": ";
793	}
794	}
795	return;
796	}
797	unsigned LineNo = PLoc.getLine();
798
799	if (!DiagOpts->ShowLocation)
800	return;
801
802	if (DiagOpts->ShowColors)
803	OS.changeColor(Color: savedColor, Bold: true);
804
805	emitFilename(Filename: PLoc.getFilename(), SM: Loc.getManager());
806	switch (DiagOpts->getFormat()) {
807	case DiagnosticOptions::SARIF:
808	case DiagnosticOptions::Clang:
809	if (DiagOpts->ShowLine)
810	OS << ':' << LineNo;
811	break;
812	case DiagnosticOptions::MSVC: OS << '(' << LineNo; break;
813	case DiagnosticOptions::Vi: OS << " +" << LineNo; break;
814	}
815
816	if (DiagOpts->ShowColumn)
817	// Compute the column number.
818	if (unsigned ColNo = PLoc.getColumn()) {
819	if (DiagOpts->getFormat() == DiagnosticOptions::MSVC) {
820	OS << ',';
821	// Visual Studio 2010 or earlier expects column number to be off by one
822	if (LangOpts.MSCompatibilityVersion &&
823	!LangOpts.isCompatibleWithMSVC(MajorVersion: LangOptions::MSVC2012))
824	ColNo--;
825	} else
826	OS << ':';
827	OS << ColNo;
828	}
829	switch (DiagOpts->getFormat()) {
830	case DiagnosticOptions::SARIF:
831	case DiagnosticOptions::Clang:
832	case DiagnosticOptions::Vi: OS << ':'; break;
833	case DiagnosticOptions::MSVC:
834	// MSVC2013 and before print 'file(4) : error'. MSVC2015 gets rid of the
835	// space and prints 'file(4): error'.
836	OS << ')';
837	if (LangOpts.MSCompatibilityVersion &&
838	!LangOpts.isCompatibleWithMSVC(MajorVersion: LangOptions::MSVC2015))
839	OS << ' ';
840	OS << ':';
841	break;
842	}
843
844	if (DiagOpts->ShowSourceRanges && !Ranges.empty()) {
845	FileID CaretFileID = Loc.getExpansionLoc().getFileID();
846	bool PrintedRange = false;
847	const SourceManager &SM = Loc.getManager();
848
849	for (const auto &R : Ranges) {
850	// Ignore invalid ranges.
851	if (!R.isValid())
852	continue;
853
854	SourceLocation B = SM.getExpansionLoc(Loc: R.getBegin());
855	CharSourceRange ERange = SM.getExpansionRange(Loc: R.getEnd());
856	SourceLocation E = ERange.getEnd();
857
858	// If the start or end of the range is in another file, just
859	// discard it.
860	if (SM.getFileID(SpellingLoc: B) != CaretFileID || SM.getFileID(SpellingLoc: E) != CaretFileID)
861	continue;
862
863	// Add in the length of the token, so that we cover multi-char
864	// tokens.
865	unsigned TokSize = 0;
866	if (ERange.isTokenRange())
867	TokSize = Lexer::MeasureTokenLength(Loc: E, SM, LangOpts);
868
869	FullSourceLoc BF(B, SM), EF(E, SM);
870	OS << '{'
871	<< BF.getLineNumber() << ':' << BF.getColumnNumber() << '-'
872	<< EF.getLineNumber() << ':' << (EF.getColumnNumber() + TokSize)
873	<< '}';
874	PrintedRange = true;
875	}
876
877	if (PrintedRange)
878	OS << ':';
879	}
880	OS << ' ';
881	}
882
883	void TextDiagnostic::emitIncludeLocation(FullSourceLoc Loc, PresumedLoc PLoc) {
884	if (DiagOpts->ShowLocation && PLoc.isValid()) {
885	OS << "In file included from ";
886	emitFilename(Filename: PLoc.getFilename(), SM: Loc.getManager());
887	OS << ':' << PLoc.getLine() << ":\n";
888	} else
889	OS << "In included file:\n";
890	}
891
892	void TextDiagnostic::emitImportLocation(FullSourceLoc Loc, PresumedLoc PLoc,
893	StringRef ModuleName) {
894	if (DiagOpts->ShowLocation && PLoc.isValid())
895	OS << "In module '" << ModuleName << "' imported from "
896	<< PLoc.getFilename() << ':' << PLoc.getLine() << ":\n";
897	else
898	OS << "In module '" << ModuleName << "':\n";
899	}
900
901	void TextDiagnostic::emitBuildingModuleLocation(FullSourceLoc Loc,
902	PresumedLoc PLoc,
903	StringRef ModuleName) {
904	if (DiagOpts->ShowLocation && PLoc.isValid())
905	OS << "While building module '" << ModuleName << "' imported from "
906	<< PLoc.getFilename() << ':' << PLoc.getLine() << ":\n";
907	else
908	OS << "While building module '" << ModuleName << "':\n";
909	}
910
911	/// Find the suitable set of lines to show to include a set of ranges.
912	static std::optional<std::pair<unsigned, unsigned>>
913	findLinesForRange(const CharSourceRange &R, FileID FID,
914	const SourceManager &SM) {
915	if (!R.isValid())
916	return std::nullopt;
917
918	SourceLocation Begin = R.getBegin();
919	SourceLocation End = R.getEnd();
920	if (SM.getFileID(SpellingLoc: Begin) != FID || SM.getFileID(SpellingLoc: End) != FID)
921	return std::nullopt;
922
923	return std::make_pair(x: SM.getExpansionLineNumber(Loc: Begin),
924	y: SM.getExpansionLineNumber(Loc: End));
925	}
926
927	/// Add as much of range B into range A as possible without exceeding a maximum
928	/// size of MaxRange. Ranges are inclusive.
929	static std::pair<unsigned, unsigned>
930	maybeAddRange(std::pair<unsigned, unsigned> A, std::pair<unsigned, unsigned> B,
931	unsigned MaxRange) {
932	// If A is already the maximum size, we're done.
933	unsigned Slack = MaxRange - (A.second - A.first + 1);
934	if (Slack == 0)
935	return A;
936
937	// Easy case: merge succeeds within MaxRange.
938	unsigned Min = std::min(a: A.first, b: B.first);
939	unsigned Max = std::max(a: A.second, b: B.second);
940	if (Max - Min + 1 <= MaxRange)
941	return {Min, Max};
942
943	// If we can't reach B from A within MaxRange, there's nothing to do.
944	// Don't add lines to the range that contain nothing interesting.
945	if ((B.first > A.first && B.first - A.first + 1 > MaxRange) ||
946	(B.second < A.second && A.second - B.second + 1 > MaxRange))
947	return A;
948
949	// Otherwise, expand A towards B to produce a range of size MaxRange. We
950	// attempt to expand by the same amount in both directions if B strictly
951	// contains A.
952
953	// Expand downwards by up to half the available amount, then upwards as
954	// much as possible, then downwards as much as possible.
955	A.second = std::min(a: A.second + (Slack + 1) / 2, b: Max);
956	Slack = MaxRange - (A.second - A.first + 1);
957	A.first = std::max(a: Min + Slack, b: A.first) - Slack;
958	A.second = std::min(a: A.first + MaxRange - 1, b: Max);
959	return A;
960	}
961
962	struct LineRange {
963	unsigned LineNo;
964	unsigned StartCol;
965	unsigned EndCol;
966	};
967
968	/// Highlight \p R (with ~'s) on the current source line.
969	static void highlightRange(const LineRange &R, const SourceColumnMap &Map,
970	std::string &CaretLine) {
971	// Pick the first non-whitespace column.
972	unsigned StartColNo = R.StartCol;
973	while (StartColNo < Map.getSourceLine().size() &&
974	(Map.getSourceLine()[StartColNo] == ' ' ||
975	Map.getSourceLine()[StartColNo] == '\t'))
976	StartColNo = Map.startOfNextColumn(N: StartColNo);
977
978	// Pick the last non-whitespace column.
979	unsigned EndColNo =
980	std::min(a: static_cast<size_t>(R.EndCol), b: Map.getSourceLine().size());
981	while (EndColNo && (Map.getSourceLine()[EndColNo - 1] == ' ' ||
982	Map.getSourceLine()[EndColNo - 1] == '\t'))
983	EndColNo = Map.startOfPreviousColumn(N: EndColNo);
984
985	// If the start/end passed each other, then we are trying to highlight a
986	// range that just exists in whitespace. That most likely means we have
987	// a multi-line highlighting range that covers a blank line.
988	if (StartColNo > EndColNo)
989	return;
990
991	// Fill the range with ~'s.
992	StartColNo = Map.byteToContainingColumn(N: StartColNo);
993	EndColNo = Map.byteToContainingColumn(N: EndColNo);
994
995	assert(StartColNo <= EndColNo && "Invalid range!");
996	if (CaretLine.size() < EndColNo)
997	CaretLine.resize(n: EndColNo, c: ' ');
998	std::fill(first: CaretLine.begin() + StartColNo, last: CaretLine.begin() + EndColNo, value: '~');
999	}
1000
1001	static std::string buildFixItInsertionLine(FileID FID,
1002	unsigned LineNo,
1003	const SourceColumnMap &map,
1004	ArrayRef<FixItHint> Hints,
1005	const SourceManager &SM,
1006	const DiagnosticOptions *DiagOpts) {
1007	std::string FixItInsertionLine;
1008	if (Hints.empty() || !DiagOpts->ShowFixits)
1009	return FixItInsertionLine;
1010	unsigned PrevHintEndCol = 0;
1011
1012	for (const auto &H : Hints) {
1013	if (H.CodeToInsert.empty())
1014	continue;
1015
1016	// We have an insertion hint. Determine whether the inserted
1017	// code contains no newlines and is on the same line as the caret.
1018	std::pair<FileID, unsigned> HintLocInfo =
1019	SM.getDecomposedExpansionLoc(Loc: H.RemoveRange.getBegin());
1020	if (FID == HintLocInfo.first &&
1021	LineNo == SM.getLineNumber(FID: HintLocInfo.first, FilePos: HintLocInfo.second) &&
1022	StringRef(H.CodeToInsert).find_first_of(Chars: "\n\r") == StringRef::npos) {
1023	// Insert the new code into the line just below the code
1024	// that the user wrote.
1025	// Note: When modifying this function, be very careful about what is a
1026	// "column" (printed width, platform-dependent) and what is a
1027	// "byte offset" (SourceManager "column").
1028	unsigned HintByteOffset =
1029	SM.getColumnNumber(FID: HintLocInfo.first, FilePos: HintLocInfo.second) - 1;
1030
1031	// The hint must start inside the source or right at the end
1032	assert(HintByteOffset < static_cast<unsigned>(map.bytes()) + 1);
1033	unsigned HintCol = map.byteToContainingColumn(N: HintByteOffset);
1034
1035	// If we inserted a long previous hint, push this one forwards, and add
1036	// an extra space to show that this is not part of the previous
1037	// completion. This is sort of the best we can do when two hints appear
1038	// to overlap.
1039	//
1040	// Note that if this hint is located immediately after the previous
1041	// hint, no space will be added, since the location is more important.
1042	if (HintCol < PrevHintEndCol)
1043	HintCol = PrevHintEndCol + 1;
1044
1045	// This should NOT use HintByteOffset, because the source might have
1046	// Unicode characters in earlier columns.
1047	unsigned NewFixItLineSize = FixItInsertionLine.size() +
1048	(HintCol - PrevHintEndCol) +
1049	H.CodeToInsert.size();
1050	if (NewFixItLineSize > FixItInsertionLine.size())
1051	FixItInsertionLine.resize(n: NewFixItLineSize, c: ' ');
1052
1053	std::copy(first: H.CodeToInsert.begin(), last: H.CodeToInsert.end(),
1054	result: FixItInsertionLine.end() - H.CodeToInsert.size());
1055
1056	PrevHintEndCol = HintCol + llvm::sys::locale::columnWidth(s: H.CodeToInsert);
1057	}
1058	}
1059
1060	expandTabs(SourceLine&: FixItInsertionLine, TabStop: DiagOpts->TabStop);
1061
1062	return FixItInsertionLine;
1063	}
1064
1065	static unsigned getNumDisplayWidth(unsigned N) {
1066	unsigned L = 1u, M = 10u;
1067	while (M <= N && ++L != std::numeric_limits<unsigned>::digits10 + 1)
1068	M *= 10u;
1069
1070	return L;
1071	}
1072
1073	/// Filter out invalid ranges, ranges that don't fit into the window of
1074	/// source lines we will print, and ranges from other files.
1075	///
1076	/// For the remaining ranges, convert them to simple LineRange structs,
1077	/// which only cover one line at a time.
1078	static SmallVector<LineRange>
1079	prepareAndFilterRanges(const SmallVectorImpl<CharSourceRange> &Ranges,
1080	const SourceManager &SM,
1081	const std::pair<unsigned, unsigned> &Lines, FileID FID,
1082	const LangOptions &LangOpts) {
1083	SmallVector<LineRange> LineRanges;
1084
1085	for (const CharSourceRange &R : Ranges) {
1086	if (R.isInvalid())
1087	continue;
1088	SourceLocation Begin = R.getBegin();
1089	SourceLocation End = R.getEnd();
1090
1091	unsigned StartLineNo = SM.getExpansionLineNumber(Loc: Begin);
1092	if (StartLineNo > Lines.second || SM.getFileID(SpellingLoc: Begin) != FID)
1093	continue;
1094
1095	unsigned EndLineNo = SM.getExpansionLineNumber(Loc: End);
1096	if (EndLineNo < Lines.first || SM.getFileID(SpellingLoc: End) != FID)
1097	continue;
1098
1099	unsigned StartColumn = SM.getExpansionColumnNumber(Loc: Begin);
1100	unsigned EndColumn = SM.getExpansionColumnNumber(Loc: End);
1101	if (R.isTokenRange())
1102	EndColumn += Lexer::MeasureTokenLength(Loc: End, SM, LangOpts);
1103
1104	// Only a single line.
1105	if (StartLineNo == EndLineNo) {
1106	LineRanges.push_back(Elt: {.LineNo: StartLineNo, .StartCol: StartColumn - 1, .EndCol: EndColumn - 1});
1107	continue;
1108	}
1109
1110	// Start line.
1111	LineRanges.push_back(Elt: {.LineNo: StartLineNo, .StartCol: StartColumn - 1, .EndCol: ~0u});
1112
1113	// Middle lines.
1114	for (unsigned S = StartLineNo + 1; S != EndLineNo; ++S)
1115	LineRanges.push_back(Elt: {.LineNo: S, .StartCol: 0, .EndCol: ~0u});
1116
1117	// End line.
1118	LineRanges.push_back(Elt: {.LineNo: EndLineNo, .StartCol: 0, .EndCol: EndColumn - 1});
1119	}
1120
1121	return LineRanges;
1122	}
1123
1124	/// Creates syntax highlighting information in form of StyleRanges.
1125	///
1126	/// The returned unique ptr has always exactly size
1127	/// (\p EndLineNumber - \p StartLineNumber + 1). Each SmallVector in there
1128	/// corresponds to syntax highlighting information in one line. In each line,
1129	/// the StyleRanges are non-overlapping and sorted from start to end of the
1130	/// line.
1131	static std::unique_ptr<llvm::SmallVector<TextDiagnostic::StyleRange>[]>
1132	highlightLines(StringRef FileData, unsigned StartLineNumber,
1133	unsigned EndLineNumber, const Preprocessor *PP,
1134	const LangOptions &LangOpts, bool ShowColors, FileID FID,
1135	const SourceManager &SM) {
1136	assert(StartLineNumber <= EndLineNumber);
1137	auto SnippetRanges =
1138	std::make_unique<SmallVector<TextDiagnostic::StyleRange>[]>(
1139	num: EndLineNumber - StartLineNumber + 1);
1140
1141	if (!PP || !ShowColors)
1142	return SnippetRanges;
1143
1144	// Might cause emission of another diagnostic.
1145	if (PP->getIdentifierTable().getExternalIdentifierLookup())
1146	return SnippetRanges;
1147
1148	auto Buff = llvm::MemoryBuffer::getMemBuffer(InputData: FileData);
1149	Lexer L{FID, *Buff, SM, LangOpts};
1150	L.SetKeepWhitespaceMode(true);
1151
1152	const char *FirstLineStart =
1153	FileData.data() +
1154	SM.getDecomposedLoc(Loc: SM.translateLineCol(FID, Line: StartLineNumber, Col: 1)).second;
1155	if (const char *CheckPoint = PP->getCheckPoint(FID, Start: FirstLineStart)) {
1156	assert(CheckPoint >= Buff->getBufferStart() &&
1157	CheckPoint <= Buff->getBufferEnd());
1158	assert(CheckPoint <= FirstLineStart);
1159	size_t Offset = CheckPoint - Buff->getBufferStart();
1160	L.seek(Offset, /*IsAtStartOfLine=*/false);
1161	}
1162
1163	// Classify the given token and append it to the given vector.
1164	auto appendStyle =
1165	[PP, &LangOpts](SmallVector<TextDiagnostic::StyleRange> &Vec,
1166	const Token &T, unsigned Start, unsigned Length) -> void {
1167	if (T.is(K: tok::raw_identifier)) {
1168	StringRef RawIdent = T.getRawIdentifier();
1169	// Special case true/false/nullptr/... literals, since they will otherwise
1170	// be treated as keywords.
1171	// FIXME: It would be good to have a programmatic way of getting this
1172	// list.
1173	if (llvm::StringSwitch<bool>(RawIdent)
1174	.Case(S: "true", Value: true)
1175	.Case(S: "false", Value: true)
1176	.Case(S: "nullptr", Value: true)
1177	.Case(S: "__func__", Value: true)
1178	.Case(S: "__objc_yes__", Value: true)
1179	.Case(S: "__objc_no__", Value: true)
1180	.Case(S: "__null", Value: true)
1181	.Case(S: "__FUNCDNAME__", Value: true)
1182	.Case(S: "__FUNCSIG__", Value: true)
1183	.Case(S: "__FUNCTION__", Value: true)
1184	.Case(S: "__FUNCSIG__", Value: true)
1185	.Default(Value: false)) {
1186	Vec.emplace_back(Args&: Start, Args: Start + Length, Args: LiteralColor);
1187	} else {
1188	const IdentifierInfo *II = PP->getIdentifierInfo(Name: RawIdent);
1189	assert(II);
1190	if (II->isKeyword(LangOpts))
1191	Vec.emplace_back(Args&: Start, Args: Start + Length, Args: KeywordColor);
1192	}
1193	} else if (tok::isLiteral(K: T.getKind())) {
1194	Vec.emplace_back(Args&: Start, Args: Start + Length, Args: LiteralColor);
1195	} else {
1196	assert(T.is(tok::comment));
1197	Vec.emplace_back(Args&: Start, Args: Start + Length, Args: CommentColor);
1198	}
1199	};
1200
1201	bool Stop = false;
1202	while (!Stop) {
1203	Token T;
1204	Stop = L.LexFromRawLexer(Result&: T);
1205	if (T.is(K: tok::unknown))
1206	continue;
1207
1208	// We are only interested in identifiers, literals and comments.
1209	if (!T.is(K: tok::raw_identifier) && !T.is(K: tok::comment) &&
1210	!tok::isLiteral(K: T.getKind()))
1211	continue;
1212
1213	bool Invalid = false;
1214	unsigned TokenEndLine = SM.getSpellingLineNumber(Loc: T.getEndLoc(), Invalid: &Invalid);
1215	if (Invalid || TokenEndLine < StartLineNumber)
1216	continue;
1217
1218	assert(TokenEndLine >= StartLineNumber);
1219
1220	unsigned TokenStartLine =
1221	SM.getSpellingLineNumber(Loc: T.getLocation(), Invalid: &Invalid);
1222	if (Invalid)
1223	continue;
1224	// If this happens, we're done.
1225	if (TokenStartLine > EndLineNumber)
1226	break;
1227
1228	unsigned StartCol =
1229	SM.getSpellingColumnNumber(Loc: T.getLocation(), Invalid: &Invalid) - 1;
1230	if (Invalid)
1231	continue;
1232
1233	// Simple tokens.
1234	if (TokenStartLine == TokenEndLine) {
1235	SmallVector<TextDiagnostic::StyleRange> &LineRanges =
1236	SnippetRanges[TokenStartLine - StartLineNumber];
1237	appendStyle(LineRanges, T, StartCol, T.getLength());
1238	continue;
1239	}
1240	assert((TokenEndLine - TokenStartLine) >= 1);
1241
1242	// For tokens that span multiple lines (think multiline comments), we
1243	// divide them into multiple StyleRanges.
1244	unsigned EndCol = SM.getSpellingColumnNumber(Loc: T.getEndLoc(), Invalid: &Invalid) - 1;
1245	if (Invalid)
1246	continue;
1247
1248	std::string Spelling = Lexer::getSpelling(Tok: T, SourceMgr: SM, LangOpts);
1249
1250	unsigned L = TokenStartLine;
1251	unsigned LineLength = 0;
1252	for (unsigned I = 0; I <= Spelling.size(); ++I) {
1253	// This line is done.
1254	if (I == Spelling.size() || isVerticalWhitespace(c: Spelling[I])) {
1255	SmallVector<TextDiagnostic::StyleRange> &LineRanges =
1256	SnippetRanges[L - StartLineNumber];
1257
1258	if (L >= StartLineNumber) {
1259	if (L == TokenStartLine) // First line
1260	appendStyle(LineRanges, T, StartCol, LineLength);
1261	else if (L == TokenEndLine) // Last line
1262	appendStyle(LineRanges, T, 0, EndCol);
1263	else
1264	appendStyle(LineRanges, T, 0, LineLength);
1265	}
1266
1267	++L;
1268	if (L > EndLineNumber)
1269	break;
1270	LineLength = 0;
1271	continue;
1272	}
1273	++LineLength;
1274	}
1275	}
1276
1277	return SnippetRanges;
1278	}
1279
1280	/// Emit a code snippet and caret line.
1281	///
1282	/// This routine emits a single line's code snippet and caret line..
1283	///
1284	/// \param Loc The location for the caret.
1285	/// \param Ranges The underlined ranges for this code snippet.
1286	/// \param Hints The FixIt hints active for this diagnostic.
1287	void TextDiagnostic::emitSnippetAndCaret(
1288	FullSourceLoc Loc, DiagnosticsEngine::Level Level,
1289	SmallVectorImpl<CharSourceRange> &Ranges, ArrayRef<FixItHint> Hints) {
1290	assert(Loc.isValid() && "must have a valid source location here");
1291	assert(Loc.isFileID() && "must have a file location here");
1292
1293	// If caret diagnostics are enabled and we have location, we want to
1294	// emit the caret. However, we only do this if the location moved
1295	// from the last diagnostic, if the last diagnostic was a note that
1296	// was part of a different warning or error diagnostic, or if the
1297	// diagnostic has ranges. We don't want to emit the same caret
1298	// multiple times if one loc has multiple diagnostics.
1299	if (!DiagOpts->ShowCarets)
1300	return;
1301	if (Loc == LastLoc && Ranges.empty() && Hints.empty() &&
1302	(LastLevel != DiagnosticsEngine::Note || Level == LastLevel))
1303	return;
1304
1305	FileID FID = Loc.getFileID();
1306	const SourceManager &SM = Loc.getManager();
1307
1308	// Get information about the buffer it points into.
1309	bool Invalid = false;
1310	StringRef BufData = Loc.getBufferData(Invalid: &Invalid);
1311	if (Invalid)
1312	return;
1313	const char *BufStart = BufData.data();
1314	const char *BufEnd = BufStart + BufData.size();
1315
1316	unsigned CaretLineNo = Loc.getLineNumber();
1317	unsigned CaretColNo = Loc.getColumnNumber();
1318
1319	// Arbitrarily stop showing snippets when the line is too long.
1320	static const size_t MaxLineLengthToPrint = 4096;
1321	if (CaretColNo > MaxLineLengthToPrint)
1322	return;
1323
1324	// Find the set of lines to include.
1325	const unsigned MaxLines = DiagOpts->SnippetLineLimit;
1326	std::pair<unsigned, unsigned> Lines = {CaretLineNo, CaretLineNo};
1327	unsigned DisplayLineNo = Loc.getPresumedLoc().getLine();
1328	for (const auto &I : Ranges) {
1329	if (auto OptionalRange = findLinesForRange(R: I, FID, SM))
1330	Lines = maybeAddRange(A: Lines, B: *OptionalRange, MaxRange: MaxLines);
1331
1332	DisplayLineNo =
1333	std::min(a: DisplayLineNo, b: SM.getPresumedLineNumber(Loc: I.getBegin()));
1334	}
1335
1336	// Our line numbers look like:
1337	// " [number] | "
1338	// Where [number] is MaxLineNoDisplayWidth columns
1339	// and the full thing is therefore MaxLineNoDisplayWidth + 4 columns.
1340	unsigned MaxLineNoDisplayWidth =
1341	DiagOpts->ShowLineNumbers
1342	? std::max(a: 4u, b: getNumDisplayWidth(N: DisplayLineNo + MaxLines))
1343	: 0;
1344	auto indentForLineNumbers = [&] {
1345	if (MaxLineNoDisplayWidth > 0)
1346	OS.indent(NumSpaces: MaxLineNoDisplayWidth + 2) << "| ";
1347	};
1348
1349	// Prepare source highlighting information for the lines we're about to
1350	// emit, starting from the first line.
1351	std::unique_ptr<SmallVector<StyleRange>[]> SourceStyles =
1352	highlightLines(FileData: BufData, StartLineNumber: Lines.first, EndLineNumber: Lines.second, PP, LangOpts,
1353	ShowColors: DiagOpts->ShowColors, FID, SM);
1354
1355	SmallVector<LineRange> LineRanges =
1356	prepareAndFilterRanges(Ranges, SM, Lines, FID, LangOpts);
1357
1358	for (unsigned LineNo = Lines.first; LineNo != Lines.second + 1;
1359	++LineNo, ++DisplayLineNo) {
1360	// Rewind from the current position to the start of the line.
1361	const char *LineStart =
1362	BufStart +
1363	SM.getDecomposedLoc(Loc: SM.translateLineCol(FID, Line: LineNo, Col: 1)).second;
1364	if (LineStart == BufEnd)
1365	break;
1366
1367	// Compute the line end.
1368	const char *LineEnd = LineStart;
1369	while (*LineEnd != '\n' && *LineEnd != '\r' && LineEnd != BufEnd)
1370	++LineEnd;
1371
1372	// Arbitrarily stop showing snippets when the line is too long.
1373	// FIXME: Don't print any lines in this case.
1374	if (size_t(LineEnd - LineStart) > MaxLineLengthToPrint)
1375	return;
1376
1377	// Copy the line of code into an std::string for ease of manipulation.
1378	std::string SourceLine(LineStart, LineEnd);
1379	// Remove trailing null bytes.
1380	while (!SourceLine.empty() && SourceLine.back() == '\0' &&
1381	(LineNo != CaretLineNo || SourceLine.size() > CaretColNo))
1382	SourceLine.pop_back();
1383
1384	// Build the byte to column map.
1385	const SourceColumnMap sourceColMap(SourceLine, DiagOpts->TabStop);
1386
1387	std::string CaretLine;
1388	// Highlight all of the characters covered by Ranges with ~ characters.
1389	for (const auto &LR : LineRanges) {
1390	if (LR.LineNo == LineNo)
1391	highlightRange(R: LR, Map: sourceColMap, CaretLine);
1392	}
1393
1394	// Next, insert the caret itself.
1395	if (CaretLineNo == LineNo) {
1396	size_t Col = sourceColMap.byteToContainingColumn(N: CaretColNo - 1);
1397	CaretLine.resize(n: std::max(a: Col + 1, b: CaretLine.size()), c: ' ');
1398	CaretLine[Col] = '^';
1399	}
1400
1401	std::string FixItInsertionLine = buildFixItInsertionLine(
1402	FID, LineNo, map: sourceColMap, Hints, SM, DiagOpts: DiagOpts.get());
1403
1404	// If the source line is too long for our terminal, select only the
1405	// "interesting" source region within that line.
1406	unsigned Columns = DiagOpts->MessageLength;
1407	if (Columns)
1408	selectInterestingSourceRegion(SourceLine, CaretLine, FixItInsertionLine,
1409	Columns, map: sourceColMap);
1410
1411	// If we are in -fdiagnostics-print-source-range-info mode, we are trying
1412	// to produce easily machine parsable output. Add a space before the
1413	// source line and the caret to make it trivial to tell the main diagnostic
1414	// line from what the user is intended to see.
1415	if (DiagOpts->ShowSourceRanges && !SourceLine.empty()) {
1416	SourceLine = ' ' + SourceLine;
1417	CaretLine = ' ' + CaretLine;
1418	}
1419
1420	// Emit what we have computed.
1421	emitSnippet(SourceLine, MaxLineNoDisplayWidth, LineNo, DisplayLineNo,
1422	Styles: SourceStyles[LineNo - Lines.first]);
1423
1424	if (!CaretLine.empty()) {
1425	indentForLineNumbers();
1426	if (DiagOpts->ShowColors)
1427	OS.changeColor(Color: caretColor, Bold: true);
1428	OS << CaretLine << '\n';
1429	if (DiagOpts->ShowColors)
1430	OS.resetColor();
1431	}
1432
1433	if (!FixItInsertionLine.empty()) {
1434	indentForLineNumbers();
1435	if (DiagOpts->ShowColors)
1436	// Print fixit line in color
1437	OS.changeColor(Color: fixitColor, Bold: false);
1438	if (DiagOpts->ShowSourceRanges)
1439	OS << ' ';
1440	OS << FixItInsertionLine << '\n';
1441	if (DiagOpts->ShowColors)
1442	OS.resetColor();
1443	}
1444	}
1445
1446	// Print out any parseable fixit information requested by the options.
1447	emitParseableFixits(Hints, SM);
1448	}
1449
1450	void TextDiagnostic::emitSnippet(StringRef SourceLine,
1451	unsigned MaxLineNoDisplayWidth,
1452	unsigned LineNo, unsigned DisplayLineNo,
1453	ArrayRef<StyleRange> Styles) {
1454	// Emit line number.
1455	if (MaxLineNoDisplayWidth > 0) {
1456	unsigned LineNoDisplayWidth = getNumDisplayWidth(N: DisplayLineNo);
1457	OS.indent(NumSpaces: MaxLineNoDisplayWidth - LineNoDisplayWidth + 1)
1458	<< DisplayLineNo << " | ";
1459	}
1460
1461	// Print the source line one character at a time.
1462	bool PrintReversed = false;
1463	std::optional<llvm::raw_ostream::Colors> CurrentColor;
1464	size_t I = 0;
1465	while (I < SourceLine.size()) {
1466	auto [Str, WasPrintable] =
1467	printableTextForNextCharacter(SourceLine, I: &I, TabStop: DiagOpts->TabStop);
1468
1469	// Toggle inverted colors on or off for this character.
1470	if (DiagOpts->ShowColors) {
1471	if (WasPrintable == PrintReversed) {
1472	PrintReversed = !PrintReversed;
1473	if (PrintReversed)
1474	OS.reverseColor();
1475	else {
1476	OS.resetColor();
1477	CurrentColor = std::nullopt;
1478	}
1479	}
1480
1481	// Apply syntax highlighting information.
1482	const auto *CharStyle = llvm::find_if(Range&: Styles, P: [I](const StyleRange &R) {
1483	return (R.Start < I && R.End >= I);
1484	});
1485
1486	if (CharStyle != Styles.end()) {
1487	if (!CurrentColor ||
1488	(CurrentColor && *CurrentColor != CharStyle->Color)) {
1489	OS.changeColor(Color: CharStyle->Color, Bold: false);
1490	CurrentColor = CharStyle->Color;
1491	}
1492	} else if (CurrentColor) {
1493	OS.resetColor();
1494	CurrentColor = std::nullopt;
1495	}
1496	}
1497
1498	OS << Str;
1499	}
1500
1501	if (DiagOpts->ShowColors)
1502	OS.resetColor();
1503
1504	OS << '\n';
1505	}
1506
1507	void TextDiagnostic::emitParseableFixits(ArrayRef<FixItHint> Hints,
1508	const SourceManager &SM) {
1509	if (!DiagOpts->ShowParseableFixits)
1510	return;
1511
1512	// We follow FixItRewriter's example in not (yet) handling
1513	// fix-its in macros.
1514	for (const auto &H : Hints) {
1515	if (H.RemoveRange.isInvalid() || H.RemoveRange.getBegin().isMacroID() ||
1516	H.RemoveRange.getEnd().isMacroID())
1517	return;
1518	}
1519
1520	for (const auto &H : Hints) {
1521	SourceLocation BLoc = H.RemoveRange.getBegin();
1522	SourceLocation ELoc = H.RemoveRange.getEnd();
1523
1524	std::pair<FileID, unsigned> BInfo = SM.getDecomposedLoc(Loc: BLoc);
1525	std::pair<FileID, unsigned> EInfo = SM.getDecomposedLoc(Loc: ELoc);
1526
1527	// Adjust for token ranges.
1528	if (H.RemoveRange.isTokenRange())
1529	EInfo.second += Lexer::MeasureTokenLength(Loc: ELoc, SM, LangOpts);
1530
1531	// We specifically do not do word-wrapping or tab-expansion here,
1532	// because this is supposed to be easy to parse.
1533	PresumedLoc PLoc = SM.getPresumedLoc(Loc: BLoc);
1534	if (PLoc.isInvalid())
1535	break;
1536
1537	OS << "fix-it:\"";
1538	OS.write_escaped(Str: PLoc.getFilename());
1539	OS << "\":{" << SM.getLineNumber(FID: BInfo.first, FilePos: BInfo.second)
1540	<< ':' << SM.getColumnNumber(FID: BInfo.first, FilePos: BInfo.second)
1541	<< '-' << SM.getLineNumber(FID: EInfo.first, FilePos: EInfo.second)
1542	<< ':' << SM.getColumnNumber(FID: EInfo.first, FilePos: EInfo.second)
1543	<< "}:\"";
1544	OS.write_escaped(Str: H.CodeToInsert);
1545	OS << "\"\n";
1546	}
1547	}
1548