Merge pull request #1068 from Techatrix/fix-typos

fix typos
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Techatrix 2023-03-15 18:57:06 +00:00 committed by GitHub
commit 8d86d54c0d
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10 changed files with 45 additions and 45 deletions

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@ -5,7 +5,7 @@ pub const BuildOption = struct {
name: []const u8, name: []const u8,
value: ?[]const u8 = null, value: ?[]const u8 = null,
/// Frees the strings assocated with this `BuildOption` and invalidates `self`. /// Frees the strings associated with this `BuildOption` and invalidates `self`.
pub fn deinit(self: *BuildOption, allocator: std.mem.Allocator) void { pub fn deinit(self: *BuildOption, allocator: std.mem.Allocator) void {
allocator.free(self.name); allocator.free(self.name);
if (self.value) |val| { if (self.value) |val| {

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@ -1034,11 +1034,11 @@ pub fn uriFromImportStr(self: *const DocumentStore, allocator: std.mem.Allocator
} }
return null; return null;
} else { } else {
var seperator_index = handle.uri.len; var separator_index = handle.uri.len;
while (seperator_index > 0) : (seperator_index -= 1) { while (separator_index > 0) : (separator_index -= 1) {
if (std.fs.path.isSep(handle.uri[seperator_index - 1])) break; if (std.fs.path.isSep(handle.uri[separator_index - 1])) break;
} }
const base = handle.uri[0 .. seperator_index - 1]; const base = handle.uri[0 .. separator_index - 1];
return URI.pathRelative(allocator, base, import_str) catch |err| switch (err) { return URI.pathRelative(allocator, base, import_str) catch |err| switch (err) {
error.OutOfMemory => return error.OutOfMemory, error.OutOfMemory => return error.OutOfMemory,

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@ -48,10 +48,10 @@ pub fn parse(allocator: std.mem.Allocator, include_carriage_return: bool, reader
} }
pub fn write(header: Header, include_carriage_return: bool, writer: anytype) @TypeOf(writer).Error!void { pub fn write(header: Header, include_carriage_return: bool, writer: anytype) @TypeOf(writer).Error!void {
const seperator: []const u8 = if (include_carriage_return) "\r\n" else "\n"; const separator: []const u8 = if (include_carriage_return) "\r\n" else "\n";
try writer.print("Content-Length: {}{s}", .{ header.content_length, seperator }); try writer.print("Content-Length: {}{s}", .{ header.content_length, separator });
if (header.content_type) |content_type| { if (header.content_type) |content_type| {
try writer.print("Content-Type: {s}{s}", .{ content_type, seperator }); try writer.print("Content-Type: {s}{s}", .{ content_type, separator });
} }
try writer.writeAll(seperator); try writer.writeAll(separator);
} }

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@ -49,7 +49,7 @@ offset_encoding: offsets.Encoding = .@"utf-16",
status: enum { status: enum {
/// the server has not received a `initialize` request /// the server has not received a `initialize` request
uninitialized, uninitialized,
/// the server has recieved a `initialize` request and is awaiting the `initialized` notification /// the server has received a `initialize` request and is awaiting the `initialized` notification
initializing, initializing,
/// the server has been initialized and is ready to received requests /// the server has been initialized and is ready to received requests
initialized, initialized,
@ -416,7 +416,7 @@ fn getAstCheckDiagnostics(
if (term != .Exited) return; if (term != .Exited) return;
var last_diagnostic: ?types.Diagnostic = null; var last_diagnostic: ?types.Diagnostic = null;
// we dont store DiagnosticRelatedInformation in last_diagnostic instead // we don't store DiagnosticRelatedInformation in last_diagnostic instead
// its stored in last_related_diagnostics because we need an ArrayList // its stored in last_related_diagnostics because we need an ArrayList
var last_related_diagnostics: std.ArrayListUnmanaged(types.DiagnosticRelatedInformation) = .{}; var last_related_diagnostics: std.ArrayListUnmanaged(types.DiagnosticRelatedInformation) = .{};
@ -1520,9 +1520,9 @@ pub fn completeFieldAccess(server: *Server, handle: *const DocumentStore.Handle,
} }
pub fn formatDetailledLabel(item: *types.CompletionItem, arena: std.mem.Allocator) error{OutOfMemory}!void { pub fn formatDetailledLabel(item: *types.CompletionItem, arena: std.mem.Allocator) error{OutOfMemory}!void {
// NOTE: this is not ideal, we should build a detailled label like we do for label/detail // NOTE: this is not ideal, we should build a detailed label like we do for label/detail
// because this implementation is very loose, nothing is formated properly so we need to clean // because this implementation is very loose, nothing is formatted properly so we need to clean
// things a little bit, wich is quite messy // things a little bit, which is quite messy
// but it works, it provide decent results // but it works, it provide decent results
std.debug.assert(item.kind != null); std.debug.assert(item.kind != null);
@ -1553,7 +1553,7 @@ pub fn formatDetailledLabel(item: *types.CompletionItem, arena: std.mem.Allocato
it = it[0..end]; it = it[0..end];
} }
// loggerger.info("## label: {s} it: {s} kind: {} isValue: {}", .{item.label, it, item.kind, isValue}); // log.info("## label: {s} it: {s} kind: {} isValue: {}", .{item.label, it, item.kind, isValue});
if (std.mem.startsWith(u8, it, "fn ") or std.mem.startsWith(u8, it, "@")) { if (std.mem.startsWith(u8, it, "fn ") or std.mem.startsWith(u8, it, "@")) {
var s: usize = std.mem.indexOf(u8, it, "(") orelse return; var s: usize = std.mem.indexOf(u8, it, "(") orelse return;
@ -1615,7 +1615,7 @@ pub fn formatDetailledLabel(item: *types.CompletionItem, arena: std.mem.Allocato
log.warn("something wrong when trying to build label detail for a .Variable {s}", .{it}); log.warn("something wrong when trying to build label detail for a .Variable {s}", .{it});
return; return;
} }
// loggerger.info("s: {} -> {}", .{s, e}); // log.info("s: {} -> {}", .{s, e});
item.insertText = item.label; item.insertText = item.label;
item.insertTextFormat = .PlainText; item.insertTextFormat = .PlainText;
item.detail = item.label; item.detail = item.label;
@ -1638,7 +1638,7 @@ pub fn formatDetailledLabel(item: *types.CompletionItem, arena: std.mem.Allocato
log.warn("something wrong when trying to build label detail for a .Variable {s}", .{it}); log.warn("something wrong when trying to build label detail for a .Variable {s}", .{it});
return; return;
} }
// loggerger.info("s: {} -> {}", .{s, e}); // log.info("s: {} -> {}", .{s, e});
item.insertText = item.label; item.insertText = item.label;
item.insertTextFormat = .PlainText; item.insertTextFormat = .PlainText;
item.detail = item.label; item.detail = item.label;
@ -1679,7 +1679,7 @@ pub fn formatDetailledLabel(item: *types.CompletionItem, arena: std.mem.Allocato
.description = item.label, // right .description = item.label, // right
}; };
} else { } else {
// TODO: if something is missing, it neecs to be implemented here // TODO: if something is missing, it needs to be implemented here
} }
// if (item.labelDetails != null) // if (item.labelDetails != null)
@ -1741,11 +1741,11 @@ pub fn completeFileSystemStringLiteral(
const loc = pos_context.loc().?; const loc = pos_context.loc().?;
var completing = handle.tree.source[loc.start + 1 .. loc.end - 1]; var completing = handle.tree.source[loc.start + 1 .. loc.end - 1];
var seperator_index = completing.len; var separator_index = completing.len;
while (seperator_index > 0) : (seperator_index -= 1) { while (separator_index > 0) : (separator_index -= 1) {
if (std.fs.path.isSep(completing[seperator_index - 1])) break; if (std.fs.path.isSep(completing[separator_index - 1])) break;
} }
completing = completing[0..seperator_index]; completing = completing[0..separator_index];
var search_paths: std.ArrayListUnmanaged([]const u8) = .{}; var search_paths: std.ArrayListUnmanaged([]const u8) = .{};
if (std.fs.path.isAbsolute(completing) and pos_context != .import_string_literal) { if (std.fs.path.isAbsolute(completing) and pos_context != .import_string_literal) {
@ -1895,9 +1895,9 @@ fn initializeHandler(server: *Server, request: types.InitializeParams) Error!typ
server.client_capabilities.supports_will_save_wait_until = synchronization.willSaveWaitUntil orelse false; server.client_capabilities.supports_will_save_wait_until = synchronization.willSaveWaitUntil orelse false;
} }
if (textDocument.codeAction) |codeaction| { if (textDocument.codeAction) |codeaction| {
if (codeaction.codeActionLiteralSupport) |literlSupport| { if (codeaction.codeActionLiteralSupport) |literalSupport| {
if (!skip_set_fixall) { if (!skip_set_fixall) {
const fixall = std.mem.indexOfScalar(types.CodeActionKind, literlSupport.codeActionKind.valueSet, .@"source.fixAll") != null; const fixall = std.mem.indexOfScalar(types.CodeActionKind, literalSupport.codeActionKind.valueSet, .@"source.fixAll") != null;
server.client_capabilities.supports_code_action_fixall = fixall; server.client_capabilities.supports_code_action_fixall = fixall;
} }
} }
@ -2093,15 +2093,15 @@ fn requestConfiguration(server: *Server) Error!void {
return; return;
} }
const configuration_items = comptime confi: { const configuration_items = comptime config: {
var comp_confi: [std.meta.fields(Config).len]types.ConfigurationItem = undefined; var comp_config: [std.meta.fields(Config).len]types.ConfigurationItem = undefined;
inline for (std.meta.fields(Config), 0..) |field, index| { inline for (std.meta.fields(Config), 0..) |field, index| {
comp_confi[index] = .{ comp_config[index] = .{
.section = "zls." ++ field.name, .section = "zls." ++ field.name,
}; };
} }
break :confi comp_confi; break :config comp_config;
}; };
server.sendRequest( server.sendRequest(
@ -2829,9 +2829,9 @@ fn selectionRangeHandler(server: *Server, request: types.SelectionRangeParams) E
const allocator = server.arena.allocator(); const allocator = server.arena.allocator();
const handle = server.document_store.getHandle(request.textDocument.uri) orelse return null; const handle = server.document_store.getHandle(request.textDocument.uri) orelse return null;
// For each of the input positons, we need to compute the stack of AST // For each of the input positions, we need to compute the stack of AST
// nodes/ranges which contain the position. At the moment, we do this in a // nodes/ranges which contain the position. At the moment, we do this in a
// super inefficient way, by iterationg _all_ nodes, selecting the ones that // super inefficient way, by iterating _all_ nodes, selecting the ones that
// contain position, and then sorting. // contain position, and then sorting.
// //
// A faster algorithm would be to walk the tree starting from the root, // A faster algorithm would be to walk the tree starting from the root,

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@ -91,7 +91,7 @@ pub const Enum = struct {
fields: std.StringArrayHashMapUnmanaged(void), fields: std.StringArrayHashMapUnmanaged(void),
values: std.AutoArrayHashMapUnmanaged(Index, void), values: std.AutoArrayHashMapUnmanaged(Index, void),
namespace: NamespaceIndex, namespace: NamespaceIndex,
tag_type_infered: bool, tag_type_inferred: bool,
}; };
pub const Function = struct { pub const Function = struct {

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@ -127,10 +127,10 @@ fn formatSnippetPlaceholder(
_ = fmt; _ = fmt;
_ = options; _ = options;
var splitit = std.mem.split(u8, data, "}"); var split_it = std.mem.split(u8, data, "}");
while (splitit.next()) |segment| { while (split_it.next()) |segment| {
try writer.writeAll(segment); try writer.writeAll(segment);
if (splitit.index) |index| if (split_it.index) |index|
if (data[index - 1] == '}') { if (data[index - 1] == '}') {
try writer.writeAll("\\}"); try writer.writeAll("\\}");
}; };
@ -1109,8 +1109,8 @@ fn resolveTypeOfNodeUncached(analyser: *Analyser, node_handle: NodeWithHandle) e
const switch_case = tree.fullSwitchCase(case).?; const switch_case = tree.fullSwitchCase(case).?;
var descriptor = std.ArrayListUnmanaged(u8){}; var descriptor = std.ArrayListUnmanaged(u8){};
for (switch_case.ast.values, 0..) |vals, index| { for (switch_case.ast.values, 0..) |values, index| {
try descriptor.appendSlice(analyser.arena, tree.getNodeSource(vals)); try descriptor.appendSlice(analyser.arena, tree.getNodeSource(values));
if (index != switch_case.ast.values.len - 1) try descriptor.appendSlice(analyser.arena, ", "); if (index != switch_case.ast.values.len - 1) try descriptor.appendSlice(analyser.arena, ", ");
} }
@ -1649,7 +1649,7 @@ pub fn isSymbolChar(char: u8) bool {
/// Given a byte index in a document (typically cursor offset), classify what kind of entity is at that index. /// Given a byte index in a document (typically cursor offset), classify what kind of entity is at that index.
/// ///
/// Classification is based on the lexical structure -- we fetch the line containin index, tokenize it, /// Classification is based on the lexical structure -- we fetch the line containing index, tokenize it,
/// and look at the sequence of tokens just before the cursor. Due to the nice way zig is designed (only line /// and look at the sequence of tokens just before the cursor. Due to the nice way zig is designed (only line
/// comments, etc) lexing just a single line is always correct. /// comments, etc) lexing just a single line is always correct.
pub fn getPositionContext( pub fn getPositionContext(

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@ -426,7 +426,7 @@ fn getDiscardLoc(text: []const u8, loc: offsets.Loc) ?offsets.Loc {
return null; return null;
}; };
// check if the identifier is preceed by a equal sign and then an underscore // check if the identifier is precede by a equal sign and then an underscore
var i: usize = loc.start - 1; var i: usize = loc.start - 1;
var found_equal_sign = false; var found_equal_sign = false;
const underscore_position = found: { const underscore_position = found: {

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@ -191,7 +191,7 @@ fn convertSymbolsInternal(
symbol_buffer: *std.ArrayListUnmanaged(types.DocumentSymbol), symbol_buffer: *std.ArrayListUnmanaged(types.DocumentSymbol),
mappings: *std.ArrayListUnmanaged(IndexToPositionEntry), mappings: *std.ArrayListUnmanaged(IndexToPositionEntry),
) []types.DocumentSymbol { ) []types.DocumentSymbol {
// aquire storage for exactly `from.len` symbols // acquire storage for exactly `from.len` symbols
const prev_len = symbol_buffer.items.len; const prev_len = symbol_buffer.items.len;
symbol_buffer.items.len += from.len; symbol_buffer.items.len += from.len;
const to: []types.DocumentSymbol = symbol_buffer.items[prev_len..]; const to: []types.DocumentSymbol = symbol_buffer.items[prev_len..];

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@ -179,14 +179,14 @@ pub fn locToRange(text: []const u8, loc: Loc, encoding: Encoding) types.Range {
}; };
} }
pub fn rangeToSlice(text: []const u8, range: types.Range, encodig: Encoding) []const u8 { pub fn rangeToSlice(text: []const u8, range: types.Range, encoding: Encoding) []const u8 {
return locToSlice(text, rangeToLoc(text, range, encodig)); return locToSlice(text, rangeToLoc(text, range, encoding));
} }
pub fn rangeToLoc(text: []const u8, range: types.Range, encodig: Encoding) Loc { pub fn rangeToLoc(text: []const u8, range: types.Range, encoding: Encoding) Loc {
return .{ return .{
.start = positionToIndex(text, range.start, encodig), .start = positionToIndex(text, range.start, encoding),
.end = positionToIndex(text, range.end, encodig), .end = positionToIndex(text, range.end, encoding),
}; };
} }

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@ -77,7 +77,7 @@ pub fn getSignatureInfo(analyser: *Analyser, alloc: std.mem.Allocator, handle: *
const token_starts = tree.tokens.items(.start); const token_starts = tree.tokens.items(.start);
// Use the innermost scope to determine the earliest token we would need // Use the innermost scope to determine the earliest token we would need
// to scan up to find a function or buitin call // to scan up to find a function or builtin call
const first_token = tree.firstToken(innermost_block); const first_token = tree.firstToken(innermost_block);
// We start by finding the token that includes the current cursor position // We start by finding the token that includes the current cursor position
const last_token = blk: { const last_token = blk: {