mirror of
https://github.com/MaskRay/ccls.git
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479 lines
15 KiB
C++
479 lines
15 KiB
C++
#include "working_files.h"
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#include "lex_utils.h"
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#include "position.h"
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#include <doctest/doctest.h>
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#include <loguru.hpp>
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#include <climits>
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namespace {
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lsPosition GetPositionForOffset(const std::string& content, int offset) {
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if (offset >= content.size())
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offset = (int)content.size() - 1;
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lsPosition result;
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int i = 0;
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while (i < offset) {
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if (content[i] == '\n') {
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result.line += 1;
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result.character = 0;
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} else {
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result.character += 1;
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}
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++i;
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}
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return result;
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}
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} // namespace
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WorkingFile::WorkingFile(const std::string& filename,
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const std::string& buffer_content)
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: filename(filename), buffer_content(buffer_content) {
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OnBufferContentUpdated();
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// SetIndexContent gets called when the file is opened.
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}
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void WorkingFile::SetIndexContent(const std::string& index_content) {
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index_lines = ToLines(index_content, true /*trim_whitespace*/);
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// Build lookup buffer.
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index_lines_lookup.clear();
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index_lines_lookup.reserve(index_lines.size());
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for (int i = 0; i < index_lines.size(); ++i) {
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const std::string& index_line = index_lines[i];
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auto it = index_lines_lookup.find(index_line);
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if (it == index_lines_lookup.end())
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index_lines_lookup[index_line] = {i + 1};
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else
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it->second.push_back(i + 1);
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}
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}
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void WorkingFile::OnBufferContentUpdated() {
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all_buffer_lines = ToLines(buffer_content, true /*trim_whitespace*/);
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// Build lookup buffer.
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all_buffer_lines_lookup.clear();
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all_buffer_lines_lookup.reserve(all_buffer_lines.size());
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for (int i = 0; i < all_buffer_lines.size(); ++i) {
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const std::string& buffer_line = all_buffer_lines[i];
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auto it = all_buffer_lines_lookup.find(buffer_line);
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if (it == all_buffer_lines_lookup.end())
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all_buffer_lines_lookup[buffer_line] = {i + 1};
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else
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it->second.push_back(i + 1);
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}
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}
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optional<int> WorkingFile::GetBufferLineFromIndexLine(int index_line) const {
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// The implementation is simple but works pretty well for most cases. We
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// lookup the line contents in the indexed file contents, and try to find the
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// most similar line in the current buffer file.
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//
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// Previously, this was implemented by tracking edits and by running myers
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// diff algorithm. They were complex implementations that did not work as
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// well.
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// Note: |index_line| and |buffer_line| are 1-based.
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// TODO: reenable this assert once we are using the real indexed file.
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// assert(index_line >= 1 && index_line <= index_lines.size());
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if (index_line < 1 || index_line > index_lines.size()) {
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loguru::Text stack = loguru::stacktrace();
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LOG_S(WARNING) << "Bad index_line (got " << index_line << ", expected [1, "
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<< index_lines.size() << "]) in " << filename
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<< stack.c_str();
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return nullopt;
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}
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// Find the line in the cached index file. We'll try to find the most similar
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// line in the buffer and return the index for that.
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std::string index = index_lines[index_line - 1];
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auto buffer_it = all_buffer_lines_lookup.find(index);
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if (buffer_it == all_buffer_lines_lookup.end()) {
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// TODO: Use levenshtein distance to find the best match (but only to an
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// extent)
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return nullopt;
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}
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// From all the identical lines, return the one which is closest to
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// |index_line|. There will usually only be one identical line.
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assert(!buffer_it->second.empty());
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int closest_dist = INT_MAX;
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int closest_buffer_line = INT_MIN;
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for (int buffer_line : buffer_it->second) {
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int dist = std::abs(buffer_line - index_line);
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if (dist <= closest_dist) {
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closest_dist = dist;
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closest_buffer_line = buffer_line;
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}
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}
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return closest_buffer_line;
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}
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optional<int> WorkingFile::GetIndexLineFromBufferLine(int buffer_line) const {
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// See GetBufferLineFromIndexLine for additional comments.
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// Note: |index_line| and |buffer_line| are 1-based.
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// assert(buffer_line >= 1 && buffer_line < all_buffer_lines.size());
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if (buffer_line < 1 || buffer_line > all_buffer_lines.size()) {
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loguru::Text stack = loguru::stacktrace();
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LOG_S(WARNING) << "Bad buffer_line (got " << buffer_line
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<< ", expected [1, " << all_buffer_lines.size() << "]) in "
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<< filename << stack.c_str();
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return nullopt;
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}
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// Find the line in the index file. We'll try to find the most similar line
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// in the index file and return the index for that.
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std::string buffer = all_buffer_lines[buffer_line - 1];
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auto index_it = index_lines_lookup.find(buffer);
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if (index_it == index_lines_lookup.end()) {
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// TODO: Use levenshtein distance to find the best match (but only to an
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// extent)
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return nullopt;
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}
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// From all the identical lines, return the one which is closest to
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// |index_line|. There will usually only be one identical line.
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assert(!index_it->second.empty());
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int closest_dist = INT_MAX;
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int closest_index_line = INT_MIN;
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for (int index_line : index_it->second) {
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int dist = std::abs(buffer_line - index_line);
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if (dist <= closest_dist) {
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closest_dist = dist;
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closest_index_line = index_line;
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}
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}
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return closest_index_line;
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}
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optional<std::string> WorkingFile::GetBufferLineContentFromIndexLine(
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int indexed_line,
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optional<int>* out_buffer_line) const {
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optional<int> buffer_line = GetBufferLineFromIndexLine(indexed_line);
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if (out_buffer_line)
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*out_buffer_line = buffer_line;
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if (!buffer_line)
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return nullopt;
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if (*buffer_line < 1 || *buffer_line >= all_buffer_lines.size()) {
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LOG_S(WARNING) << "GetBufferLineContentFromIndexLine buffer line lookup not"
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<< " in all_buffer_lines";
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return nullopt;
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}
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return all_buffer_lines[*buffer_line - 1];
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}
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std::string WorkingFile::FindClosestCallNameInBuffer(
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lsPosition position,
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int* active_parameter,
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lsPosition* completion_position) const {
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*active_parameter = 0;
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int offset = GetOffsetForPosition(position, buffer_content);
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// If vscode auto-inserts closing ')' we will begin on ')' token in foo()
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// which will make the below algorithm think it's a nested call.
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if (offset > 0 && buffer_content[offset] == ')')
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--offset;
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// Scan back out of call context.
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int balance = 0;
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while (offset > 0) {
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char c = buffer_content[offset];
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if (c == ')')
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++balance;
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else if (c == '(')
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--balance;
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if (balance == 0 && c == ',')
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*active_parameter += 1;
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--offset;
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if (balance == -1)
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break;
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}
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if (offset < 0)
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return "";
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// Scan back entire identifier.
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int start_offset = offset;
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while (offset > 0) {
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char c = buffer_content[offset - 1];
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if (isalnum(c) == false && c != '_')
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break;
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--offset;
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}
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if (completion_position)
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*completion_position = GetPositionForOffset(buffer_content, offset);
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return buffer_content.substr(offset, start_offset - offset + 1);
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}
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lsPosition WorkingFile::FindStableCompletionSource(
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lsPosition position,
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bool* is_global_completion,
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std::string* existing_completion) const {
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*is_global_completion = true;
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int start_offset = GetOffsetForPosition(position, buffer_content);
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int offset = start_offset;
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while (offset > 0) {
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char c = buffer_content[offset - 1];
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if (!isalnum(c) && c != '_') {
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// Global completion is everything except for dot (.), arrow (->), and
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// double colon (::)
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if (c == '.')
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*is_global_completion = false;
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if (offset > 2) {
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char pc = buffer_content[offset - 2];
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if (pc == ':' && c == ':')
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*is_global_completion = false;
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else if (pc == '-' && c == '>')
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*is_global_completion = false;
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}
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break;
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}
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--offset;
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}
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*existing_completion = buffer_content.substr(offset, start_offset - offset);
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return GetPositionForOffset(buffer_content, offset);
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}
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CXUnsavedFile WorkingFile::AsUnsavedFile() const {
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CXUnsavedFile result;
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result.Filename = filename.c_str();
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result.Contents = buffer_content.c_str();
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result.Length = (unsigned long)buffer_content.size();
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return result;
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}
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WorkingFile* WorkingFiles::GetFileByFilename(const std::string& filename) {
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std::lock_guard<std::mutex> lock(files_mutex);
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return GetFileByFilenameNoLock(filename);
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}
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WorkingFile* WorkingFiles::GetFileByFilenameNoLock(
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const std::string& filename) {
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for (auto& file : files) {
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if (file->filename == filename)
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return file.get();
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}
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return nullptr;
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}
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void WorkingFiles::DoAction(const std::function<void()>& action) {
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std::lock_guard<std::mutex> lock(files_mutex);
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action();
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}
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void WorkingFiles::DoActionOnFile(
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const std::string& filename,
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const std::function<void(WorkingFile* file)>& action) {
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std::lock_guard<std::mutex> lock(files_mutex);
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WorkingFile* file = GetFileByFilenameNoLock(filename);
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action(file);
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}
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WorkingFile* WorkingFiles::OnOpen(const lsTextDocumentItem& open) {
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std::lock_guard<std::mutex> lock(files_mutex);
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std::string filename = open.uri.GetPath();
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std::string content = open.text;
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// The file may already be open.
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if (WorkingFile* file = GetFileByFilenameNoLock(filename)) {
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file->version = open.version;
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file->buffer_content = content;
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file->OnBufferContentUpdated();
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return file;
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}
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files.push_back(MakeUnique<WorkingFile>(filename, content));
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return files[files.size() - 1].get();
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}
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void WorkingFiles::OnChange(const lsTextDocumentDidChangeParams& change) {
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std::lock_guard<std::mutex> lock(files_mutex);
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std::string filename = change.textDocument.uri.GetPath();
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WorkingFile* file = GetFileByFilenameNoLock(filename);
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if (!file) {
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LOG_S(WARNING) << "Could not change " << filename
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<< " because it was not open";
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return;
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}
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if (change.textDocument.version)
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file->version = *change.textDocument.version;
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for (const lsTextDocumentContentChangeEvent& diff : change.contentChanges) {
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// Per the spec replace everything if the rangeLength and range are not set.
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// See https://github.com/Microsoft/language-server-protocol/issues/9.
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if (!diff.range) {
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file->buffer_content = diff.text;
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file->OnBufferContentUpdated();
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} else {
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int start_offset =
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GetOffsetForPosition(diff.range->start, file->buffer_content);
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int end_offset =
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diff.rangeLength
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? start_offset + *diff.rangeLength
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: GetOffsetForPosition(diff.range->end, file->buffer_content);
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file->buffer_content.replace(file->buffer_content.begin() + start_offset,
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file->buffer_content.begin() + end_offset,
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diff.text);
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file->OnBufferContentUpdated();
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}
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}
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}
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void WorkingFiles::OnClose(const lsTextDocumentItem& close) {
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std::lock_guard<std::mutex> lock(files_mutex);
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std::string filename = close.uri.GetPath();
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for (int i = 0; i < files.size(); ++i) {
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if (files[i]->filename == filename) {
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files.erase(files.begin() + i);
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return;
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}
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}
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LOG_S(WARNING) << "Could not close " << filename
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<< " because it was not open";
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}
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std::vector<CXUnsavedFile> WorkingFiles::AsUnsavedFiles() {
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std::lock_guard<std::mutex> lock(files_mutex);
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std::vector<CXUnsavedFile> result;
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result.reserve(files.size());
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for (auto& file : files)
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result.push_back(file->AsUnsavedFile());
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return result;
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}
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lsPosition CharPos(const WorkingFile& file,
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char character,
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int character_offset = 0) {
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return CharPos(file.buffer_content, character, character_offset);
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}
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TEST_SUITE("WorkingFile") {
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TEST_CASE("simple call") {
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WorkingFile f("foo.cc", "abcd(1, 2");
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int active_param = 0;
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, '('), &active_param) ==
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"abcd");
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REQUIRE(active_param == 0);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, '1'), &active_param) ==
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"abcd");
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REQUIRE(active_param == 0);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, ','), &active_param) ==
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"abcd");
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REQUIRE(active_param == 1);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, ' '), &active_param) ==
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"abcd");
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REQUIRE(active_param == 1);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, '2'), &active_param) ==
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"abcd");
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REQUIRE(active_param == 1);
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}
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TEST_CASE("nested call") {
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WorkingFile f("foo.cc", "abcd(efg(), 2");
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int active_param = 0;
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, '('), &active_param) ==
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"abcd");
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REQUIRE(active_param == 0);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, 'e'), &active_param) ==
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"abcd");
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REQUIRE(active_param == 0);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, 'f'), &active_param) ==
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"abcd");
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REQUIRE(active_param == 0);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, 'g'), &active_param) ==
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"abcd");
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REQUIRE(active_param == 0);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, 'g', 1), &active_param) ==
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"efg");
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REQUIRE(active_param == 0);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, 'g', 2), &active_param) ==
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"efg");
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REQUIRE(active_param == 0);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, ','), &active_param) ==
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"abcd");
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REQUIRE(active_param == 1);
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, ' '), &active_param) ==
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"abcd");
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REQUIRE(active_param == 1);
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}
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TEST_CASE("auto-insert )") {
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WorkingFile f("foo.cc", "abc()");
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int active_param = 0;
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REQUIRE(f.FindClosestCallNameInBuffer(CharPos(f, ')'), &active_param) ==
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"abc");
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REQUIRE(active_param == 0);
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}
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TEST_CASE("existing completion") {
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WorkingFile f("foo.cc", "zzz.asdf");
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bool is_global_completion;
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std::string existing_completion;
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f.FindStableCompletionSource(CharPos(f, '.'), &is_global_completion,
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&existing_completion);
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REQUIRE(existing_completion == "zzz");
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f.FindStableCompletionSource(CharPos(f, 'a', 1), &is_global_completion,
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&existing_completion);
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REQUIRE(existing_completion == "a");
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f.FindStableCompletionSource(CharPos(f, 's', 1), &is_global_completion,
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&existing_completion);
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REQUIRE(existing_completion == "as");
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f.FindStableCompletionSource(CharPos(f, 'd', 1), &is_global_completion,
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&existing_completion);
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REQUIRE(existing_completion == "asd");
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f.FindStableCompletionSource(CharPos(f, 'f', 1), &is_global_completion,
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&existing_completion);
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REQUIRE(existing_completion == "asdf");
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}
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TEST_CASE("existing completion underscore") {
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WorkingFile f("foo.cc", "ABC_DEF");
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bool is_global_completion;
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std::string existing_completion;
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f.FindStableCompletionSource(CharPos(f, 'C'), &is_global_completion,
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&existing_completion);
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REQUIRE(existing_completion == "AB");
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f.FindStableCompletionSource(CharPos(f, '_'), &is_global_completion,
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&existing_completion);
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REQUIRE(existing_completion == "ABC");
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f.FindStableCompletionSource(CharPos(f, 'D'), &is_global_completion,
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&existing_completion);
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REQUIRE(existing_completion == "ABC_");
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}
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}
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