/*
* Copyright (c) 2020, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/QuickSort.h>
#include <AK/ScopedValueRollback.h>
#include <AK/TemporaryChange.h>
#include <LibGUI/TextEditor.h>
#include <LibGfx/Font.h>
#include <LibGfx/Palette.h>
#include <Shell/NodeVisitor.h>
#include <Shell/Parser.h>
#include <Shell/SyntaxHighlighter.h>
namespace Shell {
enum class AugmentedTokenKind : u32 {
__TokenTypeCount = (u32)AST::Node::Kind::__Count,
OpenParen,
CloseParen,
};
class HighlightVisitor : public AST::NodeVisitor {
public:
HighlightVisitor(Vector<GUI::TextDocumentSpan>& spans, const Gfx::Palette& palette, const GUI::TextDocument& document)
: m_spans(spans)
, m_palette(palette)
, m_document(document)
{
}
private:
AST::Position::Line offset_line(const AST::Position::Line& line, size_t offset)
{
// We need to look at the line(s) above.
AST::Position::Line new_line { line };
while (new_line.line_column < offset) {
offset -= new_line.line_column;
--offset;
if (new_line.line_number == 0)
break;
--new_line.line_number;
auto& line = m_document.line(new_line.line_number);
new_line.line_column = line.length();
}
if (offset > 0)
new_line.line_column -= offset;
return new_line;
}
void set_offset_range_end(GUI::TextRange& range, const AST::Position::Line& line, size_t offset = 0)
{
auto new_line = offset_line(line, offset);
range.set_end({ new_line.line_number, new_line.line_column });
}
void set_offset_range_start(GUI::TextRange& range, const AST::Position::Line& line, size_t offset = 0)
{
auto new_line = offset_line(line, offset);
range.set_start({ new_line.line_number, new_line.line_column });
}
GUI::TextDocumentSpan& span_for_node(const AST::Node* node)
{
GUI::TextDocumentSpan span;
set_offset_range_start(span.range, node->position().start_line);
set_offset_range_end(span.range, node->position().end_line);
span.data = static_cast<u64>(node->kind());
span.is_skippable = false;
m_spans.append(move(span));
return m_spans.last();
}
virtual void visit(const AST::PathRedirectionNode* node) override
{
if (node->path()->is_bareword()) {
auto& span = span_for_node(node->path());
span.attributes.color = m_palette.link();
span.attributes.underline = true;
} else {
NodeVisitor::visit(node);
}
}
virtual void visit(const AST::And* node) override
{
{
ScopedValueRollback first_in_command { m_is_first_in_command };
node->left()->visit(*this);
}
{
ScopedValueRollback first_in_command { m_is_first_in_command };
node->right()->visit(*this);
}
auto& span = span_for_node(node);
set_offset_range_start(span.range, node->and_position().start_line);
set_offset_range_end(span.range, node->and_position().end_line);
span.attributes.color = m_palette.syntax_punctuation();
span.attributes.bold = true;
}
virtual void visit(const AST::ListConcatenate* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::Background* node) override
{
NodeVisitor::visit(node);
auto& span = span_for_node(node);
set_offset_range_start(span.range, node->position().end_line, 1);
span.attributes.color = m_palette.syntax_punctuation();
span.attributes.bold = true;
}
virtual void visit(const AST::BraceExpansion* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::BarewordLiteral* node) override
{
NodeVisitor::visit(node);
auto& span = span_for_node(node);
if (m_is_first_in_command) {
span.attributes.color = m_palette.syntax_keyword();
span.attributes.bold = true;
m_is_first_in_command = false;
} else if (node->text().starts_with("-")) {
span.attributes.color = m_palette.syntax_preprocessor_statement();
}
}
virtual void visit(const AST::CastToCommand* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::CastToList* node) override
{
NodeVisitor::visit(node);
auto& start_span = span_for_node(node);
start_span.attributes.color = m_palette.syntax_punctuation();
start_span.range.set_end({ node->position().start_line.line_number, node->position().start_line.line_column + 2 });
start_span.data = static_cast<u64>(AugmentedTokenKind::OpenParen);
auto& end_span = span_for_node(node);
end_span.attributes.color = m_palette.syntax_punctuation();
set_offset_range_start(end_span.range, node->position().end_line, 1);
end_span.data = static_cast<u64>(AugmentedTokenKind::CloseParen);
}
virtual void visit(const AST::CloseFdRedirection* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::CommandLiteral* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::Comment* node) override
{
NodeVisitor::visit(node);
auto& span = span_for_node(node);
span.attributes.color = m_palette.syntax_comment();
}
virtual void visit(const AST::ContinuationControl* node) override
{
NodeVisitor::visit(node);
auto& span = span_for_node(node);
span.attributes.color = m_palette.syntax_control_keyword();
}
virtual void visit(const AST::DynamicEvaluate* node) override
{
NodeVisitor::visit(node);
auto& start_span = span_for_node(node);
start_span.attributes.color = m_palette.syntax_punctuation();
start_span.range.set_end({ node->position().start_line.line_number, node->position().start_line.line_column + 1 });
}
virtual void visit(const AST::DoubleQuotedString* node) override
{
NodeVisitor::visit(node);
auto& start_span = span_for_node(node);
start_span.attributes.color = m_palette.syntax_string();
start_span.range.set_end({ node->position().start_line.line_number, node->position().start_line.line_column + 1 });
start_span.is_skippable = true;
auto& end_span = span_for_node(node);
set_offset_range_start(end_span.range, node->position().end_line, 1);
end_span.attributes.color = m_palette.syntax_string();
end_span.is_skippable = true;
if (m_is_first_in_command) {
start_span.attributes.bold = true;
end_span.attributes.bold = true;
}
m_is_first_in_command = false;
}
virtual void visit(const AST::Fd2FdRedirection* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::FunctionDeclaration* node) override
{
NodeVisitor::visit(node);
// fn name
auto& name_span = span_for_node(node);
set_offset_range_start(name_span.range, node->name().position.start_line);
set_offset_range_end(name_span.range, node->name().position.end_line);
name_span.attributes.color = m_palette.syntax_identifier();
// arguments
for (auto& arg : node->arguments()) {
auto& name_span = span_for_node(node);
set_offset_range_start(name_span.range, arg.position.start_line);
set_offset_range_end(name_span.range, arg.position.end_line);
name_span.attributes.color = m_palette.syntax_identifier();
}
}
virtual void visit(const AST::ForLoop* node) override
{
// The iterated expression is an expression, not a command.
m_is_first_in_command = false;
NodeVisitor::visit(node);
// "for"
auto& for_span = span_for_node(node);
// FIXME: "fo\\\nr" is valid too
for_span.range.set_end({ node->position().start_line.line_number, node->position().start_line.line_column + 3 });
for_span.attributes.color = m_palette.syntax_keyword();
// "in"
if (auto maybe_position = node->in_keyword_position(); maybe_position.has_value()) {
auto& position = maybe_position.value();
auto& in_span = span_for_node(node);
set_offset_range_start(in_span.range, position.start_line);
set_offset_range_end(in_span.range, position.end_line);
in_span.attributes.color = m_palette.syntax_keyword();
}
// "index"
if (auto maybe_position = node->index_keyword_position(); maybe_position.has_value()) {
auto& position = maybe_position.value();
auto& index_span = span_for_node(node);
set_offset_range_start(index_span.range, position.start_line);
set_offset_range_end(index_span.range, position.end_line);
index_span.attributes.color = m_palette.syntax_keyword();
}
// variables
if (auto maybe_variable = node->variable(); maybe_variable.has_value()) {
auto& position = maybe_variable->position;
auto& variable_span = span_for_node(node);
set_offset_range_start(variable_span.range, position.start_line);
set_offset_range_end(variable_span.range, position.end_line);
variable_span.attributes.color = m_palette.syntax_identifier();
}
if (auto maybe_variable = node->index_variable(); maybe_variable.has_value()) {
auto& position = maybe_variable->position;
auto& variable_span = span_for_node(node);
set_offset_range_start(variable_span.range, position.start_line);
set_offset_range_end(variable_span.range, position.end_line);
variable_span.attributes.color = m_palette.syntax_identifier();
}
}
virtual void visit(const AST::Glob* node) override
{
NodeVisitor::visit(node);
auto& span = span_for_node(node);
span.attributes.color = m_palette.syntax_preprocessor_value();
}
virtual void visit(const AST::Execute* node) override
{
TemporaryChange first { m_is_first_in_command, true };
NodeVisitor::visit(node);
if (node->does_capture_stdout()) {
auto& start_span = span_for_node(node);
start_span.attributes.color = m_palette.syntax_punctuation();
start_span.range.set_end({ node->position().start_line.line_number, node->position().start_line.line_column + 2 });
start_span.data = static_cast<u64>(AugmentedTokenKind::OpenParen);
auto& end_span = span_for_node(node);
end_span.attributes.color = m_palette.syntax_punctuation();
set_offset_range_start(end_span.range, node->position().end_line, 1);
end_span.data = static_cast<u64>(AugmentedTokenKind::CloseParen);
}
}
virtual void visit(const AST::IfCond* node) override
{
m_is_first_in_command = false;
NodeVisitor::visit(node);
// "if"
auto& if_span = span_for_node(node);
// FIXME: "i\\\nf" is valid too
if_span.range.set_end({ node->position().start_line.line_number, node->position().start_line.line_column + 2 });
if_span.attributes.color = m_palette.syntax_keyword();
// "else"
if (auto maybe_position = node->else_position(); maybe_position.has_value()) {
auto& position = maybe_position.value();
auto& else_span = span_for_node(node);
set_offset_range_start(else_span.range, position.start_line);
set_offset_range_end(else_span.range, position.end_line);
else_span.attributes.color = m_palette.syntax_keyword();
}
}
virtual void visit(const AST::ImmediateExpression* node) override
{
TemporaryChange first { m_is_first_in_command, false };
NodeVisitor::visit(node);
// ${
auto& start_span = span_for_node(node);
start_span.attributes.color = m_palette.syntax_punctuation();
start_span.range.set_end({ node->position().start_line.line_number, node->position().start_line.line_column + 2 });
start_span.data = static_cast<u64>(AugmentedTokenKind::OpenParen);
// Function name
auto& name_span = span_for_node(node);
name_span.attributes.color = m_palette.syntax_preprocessor_statement(); // Closest thing we have to this
set_offset_range_start(name_span.range, node->function_position().start_line);
set_offset_range_end(name_span.range, node->function_position().end_line);
// }
auto& end_span = span_for_node(node);
end_span.attributes.color = m_palette.syntax_punctuation();
set_offset_range_start(end_span.range, node->position().end_line, 1);
end_span.data = static_cast<u64>(AugmentedTokenKind::CloseParen);
}
virtual void visit(const AST::Join* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::MatchExpr* node) override
{
// The matched expression is an expression, not a command.
m_is_first_in_command = false;
NodeVisitor::visit(node);
// "match"
auto& match_expr = span_for_node(node);
// FIXME: "mat\\\nch" is valid too
match_expr.range.set_end({ node->position().start_line.line_number, node->position().start_line.line_column + 5 });
match_expr.attributes.color = m_palette.syntax_keyword();
// "as"
if (auto maybe_position = node->as_position(); maybe_position.has_value()) {
auto& position = maybe_position.value();
auto& as_span = span_for_node(node);
as_span.range.set_start({ position.start_line.line_number, position.start_line.line_column });
as_span.range.set_end({ position.end_line.line_number, position.end_line.line_column + 1 });
as_span.attributes.color = m_palette.syntax_keyword();
}
}
virtual void visit(const AST::Or* node) override
{
{
ScopedValueRollback first_in_command { m_is_first_in_command };
node->left()->visit(*this);
}
{
ScopedValueRollback first_in_command { m_is_first_in_command };
node->right()->visit(*this);
}
auto& span = span_for_node(node);
set_offset_range_start(span.range, node->or_position().start_line);
set_offset_range_end(span.range, node->or_position().end_line);
span.attributes.color = m_palette.syntax_punctuation();
span.attributes.bold = true;
}
virtual void visit(const AST::Pipe* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::Range* node) override
{
NodeVisitor::visit(node);
auto& start_span = span_for_node(node->start());
auto& start_position = node->start()->position();
set_offset_range_start(start_span.range, start_position.start_line, 1);
start_span.range.set_end({ start_position.start_line.line_number, start_position.start_line.line_column + 1 });
start_span.attributes.color = m_palette.syntax_punctuation();
auto& end_span = span_for_node(node->start());
auto& end_position = node->end()->position();
set_offset_range_start(end_span.range, end_position.end_line, 1);
start_span.range.set_end({ end_position.start_line.line_number, end_position.start_line.line_column + 1 });
end_span.attributes.color = m_palette.syntax_punctuation();
}
virtual void visit(const AST::ReadRedirection* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::ReadWriteRedirection* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::Sequence* node) override
{
for (auto& entry : node->entries()) {
ScopedValueRollback first_in_command { m_is_first_in_command };
entry.visit(*this);
}
for (auto& position : node->separator_positions()) {
if (position.start_offset == position.end_offset)
continue;
auto& span = span_for_node(node);
set_offset_range_start(span.range, position.start_line);
set_offset_range_end(span.range, position.end_line);
span.attributes.color = m_palette.syntax_punctuation();
span.attributes.bold = true;
span.is_skippable = true;
}
}
virtual void visit(const AST::Subshell* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::SimpleVariable* node) override
{
NodeVisitor::visit(node);
auto& span = span_for_node(node);
span.attributes.color = m_palette.syntax_identifier();
}
virtual void visit(const AST::SpecialVariable* node) override
{
NodeVisitor::visit(node);
auto& span = span_for_node(node);
span.attributes.color = m_palette.syntax_identifier();
}
virtual void visit(const AST::Juxtaposition* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::StringLiteral* node) override
{
NodeVisitor::visit(node);
if (node->text().is_empty())
return;
auto& span = span_for_node(node);
span.attributes.color = m_palette.syntax_string();
if (m_is_first_in_command)
span.attributes.bold = true;
m_is_first_in_command = false;
}
virtual void visit(const AST::StringPartCompose* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::SyntaxError* node) override
{
NodeVisitor::visit(node);
auto& span = span_for_node(node);
span.attributes.underline = true;
span.attributes.background_color = Color(Color::NamedColor::MidRed).lightened(1.3f).with_alpha(128);
}
virtual void visit(const AST::Tilde* node) override
{
NodeVisitor::visit(node);
auto& span = span_for_node(node);
span.attributes.color = m_palette.link();
}
virtual void visit(const AST::VariableDeclarations* node) override
{
TemporaryChange first_in_command { m_is_first_in_command, false };
for (auto& decl : node->variables()) {
auto& name_span = span_for_node(decl.name);
name_span.attributes.color = m_palette.syntax_identifier();
decl.value->visit(*this);
auto& start_span = span_for_node(decl.name);
start_span.range.set_start({ decl.name->position().end_line.line_number, decl.name->position().end_line.line_column });
start_span.range.set_end({ decl.value->position().start_line.line_number, decl.value->position().start_line.line_column + 1 });
start_span.attributes.color = m_palette.syntax_punctuation();
start_span.data = static_cast<u64>(AugmentedTokenKind::OpenParen);
}
}
virtual void visit(const AST::WriteAppendRedirection* node) override
{
NodeVisitor::visit(node);
}
virtual void visit(const AST::WriteRedirection* node) override
{
NodeVisitor::visit(node);
}
Vector<GUI::TextDocumentSpan>& m_spans;
const Gfx::Palette& m_palette;
const GUI::TextDocument& m_document;
bool m_is_first_in_command { false };
};
bool SyntaxHighlighter::is_identifier(u64 token) const
{
if (!token)
return false;
auto kind = (size_t)token;
return kind == (size_t)AST::Node::Kind::BarewordLiteral
|| kind == (size_t)AST::Node::Kind::StringLiteral
|| kind == (size_t)AST::Node::Kind::Tilde;
}
bool SyntaxHighlighter::is_navigatable(u64) const
{
return false;
}
void SyntaxHighlighter::rehighlight(const Palette& palette)
{
auto text = m_client->get_text();
Parser parser(text);
auto ast = parser.parse();
Vector<GUI::TextDocumentSpan> spans;
HighlightVisitor visitor { spans, palette, m_client->get_document() };
if (ast)
ast->visit(visitor);
quick_sort(spans, [](auto& a, auto& b) { return a.range.start() < b.range.start() && a.range.end() < b.range.end(); });
if constexpr (SYNTAX_HIGHLIGHTING_DEBUG) {
for (auto& span : spans) {
dbgln("Kind {}, range {}.", span.data, span.range);
}
}
m_client->do_set_spans(move(spans));
m_has_brace_buddies = false;
highlight_matching_token_pair();
m_client->do_update();
}
Vector<Syntax::Highlighter::MatchingTokenPair> SyntaxHighlighter::matching_token_pairs_impl() const
{
static Vector<MatchingTokenPair> pairs;
if (pairs.is_empty()) {
pairs.append({
static_cast<u64>(AugmentedTokenKind::OpenParen),
static_cast<u64>(AugmentedTokenKind::CloseParen),
});
}
return pairs;
}
bool SyntaxHighlighter::token_types_equal(u64 token0, u64 token1) const
{
return token0 == token1;
}
SyntaxHighlighter::~SyntaxHighlighter()
{
}
}