zig/src-self-hosted/dep_tokenizer.zig

1055 lines
37 KiB
Zig

const std = @import("std");
const testing = std.testing;
pub const Tokenizer = struct {
arena: std.heap.ArenaAllocator,
index: usize,
bytes: []const u8,
error_text: []const u8,
state: State,
pub fn init(allocator: *std.mem.Allocator, bytes: []const u8) Tokenizer {
return Tokenizer{
.arena = std.heap.ArenaAllocator.init(allocator),
.index = 0,
.bytes = bytes,
.error_text = "",
.state = State{ .lhs = {} },
};
}
pub fn deinit(self: *Tokenizer) void {
self.arena.deinit();
}
pub fn next(self: *Tokenizer) Error!?Token {
while (self.index < self.bytes.len) {
const char = self.bytes[self.index];
while (true) {
switch (self.state) {
.lhs => switch (char) {
'\t', '\n', '\r', ' ' => {
// silently ignore whitespace
break; // advance
},
else => {
self.state = State{ .target = try std.Buffer.initSize(&self.arena.allocator, 0) };
},
},
.target => |*target| switch (char) {
'\t', '\n', '\r', ' ' => {
return self.errorIllegalChar(self.index, char, "invalid target", .{});
},
'$' => {
self.state = State{ .target_dollar_sign = target.* };
break; // advance
},
'\\' => {
self.state = State{ .target_reverse_solidus = target.* };
break; // advance
},
':' => {
self.state = State{ .target_colon = target.* };
break; // advance
},
else => {
try target.appendByte(char);
break; // advance
},
},
.target_reverse_solidus => |*target| switch (char) {
'\t', '\n', '\r' => {
return self.errorIllegalChar(self.index, char, "bad target escape", .{});
},
' ', '#', '\\' => {
try target.appendByte(char);
self.state = State{ .target = target.* };
break; // advance
},
'$' => {
try target.append(self.bytes[self.index - 1 .. self.index]);
self.state = State{ .target_dollar_sign = target.* };
break; // advance
},
else => {
try target.append(self.bytes[self.index - 1 .. self.index + 1]);
self.state = State{ .target = target.* };
break; // advance
},
},
.target_dollar_sign => |*target| switch (char) {
'$' => {
try target.appendByte(char);
self.state = State{ .target = target.* };
break; // advance
},
else => {
return self.errorIllegalChar(self.index, char, "expecting '$'", .{});
},
},
.target_colon => |*target| switch (char) {
'\n', '\r' => {
const bytes = target.toSlice();
if (bytes.len != 0) {
self.state = State{ .lhs = {} };
return Token{ .id = .target, .bytes = bytes };
}
// silently ignore null target
self.state = State{ .lhs = {} };
continue;
},
'\\' => {
self.state = State{ .target_colon_reverse_solidus = target.* };
break; // advance
},
else => {
const bytes = target.toSlice();
if (bytes.len != 0) {
self.state = State{ .rhs = {} };
return Token{ .id = .target, .bytes = bytes };
}
// silently ignore null target
self.state = State{ .lhs = {} };
continue;
},
},
.target_colon_reverse_solidus => |*target| switch (char) {
'\n', '\r' => {
const bytes = target.toSlice();
if (bytes.len != 0) {
self.state = State{ .lhs = {} };
return Token{ .id = .target, .bytes = bytes };
}
// silently ignore null target
self.state = State{ .lhs = {} };
continue;
},
else => {
try target.append(self.bytes[self.index - 2 .. self.index + 1]);
self.state = State{ .target = target.* };
break;
},
},
.rhs => switch (char) {
'\t', ' ' => {
// silently ignore horizontal whitespace
break; // advance
},
'\n', '\r' => {
self.state = State{ .lhs = {} };
continue;
},
'\\' => {
self.state = State{ .rhs_continuation = {} };
break; // advance
},
'"' => {
self.state = State{ .prereq_quote = try std.Buffer.initSize(&self.arena.allocator, 0) };
break; // advance
},
else => {
self.state = State{ .prereq = try std.Buffer.initSize(&self.arena.allocator, 0) };
},
},
.rhs_continuation => switch (char) {
'\n' => {
self.state = State{ .rhs = {} };
break; // advance
},
'\r' => {
self.state = State{ .rhs_continuation_linefeed = {} };
break; // advance
},
else => {
return self.errorIllegalChar(self.index, char, "continuation expecting end-of-line", .{});
},
},
.rhs_continuation_linefeed => switch (char) {
'\n' => {
self.state = State{ .rhs = {} };
break; // advance
},
else => {
return self.errorIllegalChar(self.index, char, "continuation expecting end-of-line", .{});
},
},
.prereq_quote => |*prereq| switch (char) {
'"' => {
const bytes = prereq.toSlice();
self.index += 1;
self.state = State{ .rhs = {} };
return Token{ .id = .prereq, .bytes = bytes };
},
else => {
try prereq.appendByte(char);
break; // advance
},
},
.prereq => |*prereq| switch (char) {
'\t', ' ' => {
const bytes = prereq.toSlice();
self.state = State{ .rhs = {} };
return Token{ .id = .prereq, .bytes = bytes };
},
'\n', '\r' => {
const bytes = prereq.toSlice();
self.state = State{ .lhs = {} };
return Token{ .id = .prereq, .bytes = bytes };
},
'\\' => {
self.state = State{ .prereq_continuation = prereq.* };
break; // advance
},
else => {
try prereq.appendByte(char);
break; // advance
},
},
.prereq_continuation => |*prereq| switch (char) {
'\n' => {
const bytes = prereq.toSlice();
self.index += 1;
self.state = State{ .rhs = {} };
return Token{ .id = .prereq, .bytes = bytes };
},
'\r' => {
self.state = State{ .prereq_continuation_linefeed = prereq.* };
break; // advance
},
else => {
// not continuation
try prereq.append(self.bytes[self.index - 1 .. self.index + 1]);
self.state = State{ .prereq = prereq.* };
break; // advance
},
},
.prereq_continuation_linefeed => |prereq| switch (char) {
'\n' => {
const bytes = prereq.toSlice();
self.index += 1;
self.state = State{ .rhs = {} };
return Token{ .id = .prereq, .bytes = bytes };
},
else => {
return self.errorIllegalChar(self.index, char, "continuation expecting end-of-line", .{});
},
},
}
}
self.index += 1;
}
// eof, handle maybe incomplete token
if (self.index == 0) return null;
const idx = self.index - 1;
switch (self.state) {
.lhs,
.rhs,
.rhs_continuation,
.rhs_continuation_linefeed,
=> {},
.target => |target| {
return self.errorPosition(idx, target.toSlice(), "incomplete target", .{});
},
.target_reverse_solidus,
.target_dollar_sign,
=> {
const index = self.index - 1;
return self.errorIllegalChar(idx, self.bytes[idx], "incomplete escape", .{});
},
.target_colon => |target| {
const bytes = target.toSlice();
if (bytes.len != 0) {
self.index += 1;
self.state = State{ .rhs = {} };
return Token{ .id = .target, .bytes = bytes };
}
// silently ignore null target
self.state = State{ .lhs = {} };
},
.target_colon_reverse_solidus => |target| {
const bytes = target.toSlice();
if (bytes.len != 0) {
self.index += 1;
self.state = State{ .rhs = {} };
return Token{ .id = .target, .bytes = bytes };
}
// silently ignore null target
self.state = State{ .lhs = {} };
},
.prereq_quote => |prereq| {
return self.errorPosition(idx, prereq.toSlice(), "incomplete quoted prerequisite", .{});
},
.prereq => |prereq| {
const bytes = prereq.toSlice();
self.state = State{ .lhs = {} };
return Token{ .id = .prereq, .bytes = bytes };
},
.prereq_continuation => |prereq| {
const bytes = prereq.toSlice();
self.state = State{ .lhs = {} };
return Token{ .id = .prereq, .bytes = bytes };
},
.prereq_continuation_linefeed => |prereq| {
const bytes = prereq.toSlice();
self.state = State{ .lhs = {} };
return Token{ .id = .prereq, .bytes = bytes };
},
}
return null;
}
fn errorf(self: *Tokenizer, comptime fmt: []const u8, args: var) Error {
self.error_text = (try std.Buffer.allocPrint(&self.arena.allocator, fmt, args)).toSlice();
return Error.InvalidInput;
}
fn errorPosition(self: *Tokenizer, position: usize, bytes: []const u8, comptime fmt: []const u8, args: var) Error {
var buffer = try std.Buffer.initSize(&self.arena.allocator, 0);
std.fmt.format(&buffer, anyerror, std.Buffer.append, fmt, args) catch {};
try buffer.append(" '");
var out = makeOutput(std.Buffer.append, &buffer);
try printCharValues(&out, bytes);
try buffer.append("'");
std.fmt.format(&buffer, anyerror, std.Buffer.append, " at position {}", .{position - (bytes.len - 1)}) catch {};
self.error_text = buffer.toSlice();
return Error.InvalidInput;
}
fn errorIllegalChar(self: *Tokenizer, position: usize, char: u8, comptime fmt: []const u8, args: var) Error {
var buffer = try std.Buffer.initSize(&self.arena.allocator, 0);
try buffer.append("illegal char ");
var out = makeOutput(std.Buffer.append, &buffer);
try printUnderstandableChar(&out, char);
std.fmt.format(&buffer, anyerror, std.Buffer.append, " at position {}", .{position}) catch {};
if (fmt.len != 0) std.fmt.format(&buffer, anyerror, std.Buffer.append, ": " ++ fmt, args) catch {};
self.error_text = buffer.toSlice();
return Error.InvalidInput;
}
const Error = error{
OutOfMemory,
InvalidInput,
};
const State = union(enum) {
lhs: void,
target: std.Buffer,
target_reverse_solidus: std.Buffer,
target_dollar_sign: std.Buffer,
target_colon: std.Buffer,
target_colon_reverse_solidus: std.Buffer,
rhs: void,
rhs_continuation: void,
rhs_continuation_linefeed: void,
prereq_quote: std.Buffer,
prereq: std.Buffer,
prereq_continuation: std.Buffer,
prereq_continuation_linefeed: std.Buffer,
};
const Token = struct {
id: ID,
bytes: []const u8,
const ID = enum {
target,
prereq,
};
};
};
test "empty file" {
try depTokenizer("", "");
}
test "empty whitespace" {
try depTokenizer("\n", "");
try depTokenizer("\r", "");
try depTokenizer("\r\n", "");
try depTokenizer(" ", "");
}
test "empty colon" {
try depTokenizer(":", "");
try depTokenizer("\n:", "");
try depTokenizer("\r:", "");
try depTokenizer("\r\n:", "");
try depTokenizer(" :", "");
}
test "empty target" {
try depTokenizer("foo.o:", "target = {foo.o}");
try depTokenizer(
\\foo.o:
\\bar.o:
\\abcd.o:
,
\\target = {foo.o}
\\target = {bar.o}
\\target = {abcd.o}
);
}
test "whitespace empty target" {
try depTokenizer("\nfoo.o:", "target = {foo.o}");
try depTokenizer("\rfoo.o:", "target = {foo.o}");
try depTokenizer("\r\nfoo.o:", "target = {foo.o}");
try depTokenizer(" foo.o:", "target = {foo.o}");
}
test "escape empty target" {
try depTokenizer("\\ foo.o:", "target = { foo.o}");
try depTokenizer("\\#foo.o:", "target = {#foo.o}");
try depTokenizer("\\\\foo.o:", "target = {\\foo.o}");
try depTokenizer("$$foo.o:", "target = {$foo.o}");
}
test "empty target linefeeds" {
try depTokenizer("\n", "");
try depTokenizer("\r\n", "");
const expect = "target = {foo.o}";
try depTokenizer(
\\foo.o:
, expect);
try depTokenizer(
\\foo.o:
\\
, expect);
try depTokenizer(
\\foo.o:
, expect);
try depTokenizer(
\\foo.o:
\\
, expect);
}
test "empty target linefeeds + continuations" {
const expect = "target = {foo.o}";
try depTokenizer(
\\foo.o:\
, expect);
try depTokenizer(
\\foo.o:\
\\
, expect);
try depTokenizer(
\\foo.o:\
, expect);
try depTokenizer(
\\foo.o:\
\\
, expect);
}
test "empty target linefeeds + hspace + continuations" {
const expect = "target = {foo.o}";
try depTokenizer(
\\foo.o: \
, expect);
try depTokenizer(
\\foo.o: \
\\
, expect);
try depTokenizer(
\\foo.o: \
, expect);
try depTokenizer(
\\foo.o: \
\\
, expect);
}
test "prereq" {
const expect =
\\target = {foo.o}
\\prereq = {foo.c}
;
try depTokenizer("foo.o: foo.c", expect);
try depTokenizer(
\\foo.o: \
\\foo.c
, expect);
try depTokenizer(
\\foo.o: \
\\ foo.c
, expect);
try depTokenizer(
\\foo.o: \
\\ foo.c
, expect);
}
test "prereq continuation" {
const expect =
\\target = {foo.o}
\\prereq = {foo.h}
\\prereq = {bar.h}
;
try depTokenizer(
\\foo.o: foo.h\
\\bar.h
, expect);
try depTokenizer(
\\foo.o: foo.h\
\\bar.h
, expect);
}
test "multiple prereqs" {
const expect =
\\target = {foo.o}
\\prereq = {foo.c}
\\prereq = {foo.h}
\\prereq = {bar.h}
;
try depTokenizer("foo.o: foo.c foo.h bar.h", expect);
try depTokenizer(
\\foo.o: \
\\foo.c foo.h bar.h
, expect);
try depTokenizer(
\\foo.o: foo.c foo.h bar.h\
, expect);
try depTokenizer(
\\foo.o: foo.c foo.h bar.h\
\\
, expect);
try depTokenizer(
\\foo.o: \
\\foo.c \
\\ foo.h\
\\bar.h
\\
, expect);
try depTokenizer(
\\foo.o: \
\\foo.c \
\\ foo.h\
\\bar.h\
\\
, expect);
try depTokenizer(
\\foo.o: \
\\foo.c \
\\ foo.h\
\\bar.h\
, expect);
}
test "multiple targets and prereqs" {
try depTokenizer(
\\foo.o: foo.c
\\bar.o: bar.c a.h b.h c.h
\\abc.o: abc.c \
\\ one.h two.h \
\\ three.h four.h
,
\\target = {foo.o}
\\prereq = {foo.c}
\\target = {bar.o}
\\prereq = {bar.c}
\\prereq = {a.h}
\\prereq = {b.h}
\\prereq = {c.h}
\\target = {abc.o}
\\prereq = {abc.c}
\\prereq = {one.h}
\\prereq = {two.h}
\\prereq = {three.h}
\\prereq = {four.h}
);
try depTokenizer(
\\ascii.o: ascii.c
\\base64.o: base64.c stdio.h
\\elf.o: elf.c a.h b.h c.h
\\macho.o: \
\\ macho.c\
\\ a.h b.h c.h
,
\\target = {ascii.o}
\\prereq = {ascii.c}
\\target = {base64.o}
\\prereq = {base64.c}
\\prereq = {stdio.h}
\\target = {elf.o}
\\prereq = {elf.c}
\\prereq = {a.h}
\\prereq = {b.h}
\\prereq = {c.h}
\\target = {macho.o}
\\prereq = {macho.c}
\\prereq = {a.h}
\\prereq = {b.h}
\\prereq = {c.h}
);
try depTokenizer(
\\a$$scii.o: ascii.c
\\\\base64.o: "\base64.c" "s t#dio.h"
\\e\\lf.o: "e\lf.c" "a.h$$" "$$b.h c.h$$"
\\macho.o: \
\\ "macho!.c" \
\\ a.h b.h c.h
,
\\target = {a$scii.o}
\\prereq = {ascii.c}
\\target = {\base64.o}
\\prereq = {\base64.c}
\\prereq = {s t#dio.h}
\\target = {e\lf.o}
\\prereq = {e\lf.c}
\\prereq = {a.h$$}
\\prereq = {$$b.h c.h$$}
\\target = {macho.o}
\\prereq = {macho!.c}
\\prereq = {a.h}
\\prereq = {b.h}
\\prereq = {c.h}
);
}
test "windows quoted prereqs" {
try depTokenizer(
\\c:\foo.o: "C:\Program Files (x86)\Microsoft Visual Studio\foo.c"
\\c:\foo2.o: "C:\Program Files (x86)\Microsoft Visual Studio\foo2.c" \
\\ "C:\Program Files (x86)\Microsoft Visual Studio\foo1.h" \
\\ "C:\Program Files (x86)\Microsoft Visual Studio\foo2.h"
,
\\target = {c:\foo.o}
\\prereq = {C:\Program Files (x86)\Microsoft Visual Studio\foo.c}
\\target = {c:\foo2.o}
\\prereq = {C:\Program Files (x86)\Microsoft Visual Studio\foo2.c}
\\prereq = {C:\Program Files (x86)\Microsoft Visual Studio\foo1.h}
\\prereq = {C:\Program Files (x86)\Microsoft Visual Studio\foo2.h}
);
}
test "windows mixed prereqs" {
try depTokenizer(
\\cimport.o: \
\\ C:\msys64\home\anon\project\zig\master\zig-cache\o\qhvhbUo7GU5iKyQ5mpA8TcQpncCYaQu0wwvr3ybiSTj_Dtqi1Nmcb70kfODJ2Qlg\cimport.h \
\\ "C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\stdio.h" \
\\ "C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt.h" \
\\ "C:\Program Files (x86)\Microsoft Visual Studio\2019\BuildTools\VC\Tools\MSVC\14.21.27702\lib\x64\\..\..\include\vcruntime.h" \
\\ "C:\Program Files (x86)\Microsoft Visual Studio\2019\BuildTools\VC\Tools\MSVC\14.21.27702\lib\x64\\..\..\include\sal.h" \
\\ "C:\Program Files (x86)\Microsoft Visual Studio\2019\BuildTools\VC\Tools\MSVC\14.21.27702\lib\x64\\..\..\include\concurrencysal.h" \
\\ C:\msys64\opt\zig\lib\zig\include\vadefs.h \
\\ "C:\Program Files (x86)\Microsoft Visual Studio\2019\BuildTools\VC\Tools\MSVC\14.21.27702\lib\x64\\..\..\include\vadefs.h" \
\\ "C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt_wstdio.h" \
\\ "C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt_stdio_config.h" \
\\ "C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\string.h" \
\\ "C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt_memory.h" \
\\ "C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt_memcpy_s.h" \
\\ "C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\errno.h" \
\\ "C:\Program Files (x86)\Microsoft Visual Studio\2019\BuildTools\VC\Tools\MSVC\14.21.27702\lib\x64\\..\..\include\vcruntime_string.h" \
\\ "C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt_wstring.h"
,
\\target = {cimport.o}
\\prereq = {C:\msys64\home\anon\project\zig\master\zig-cache\o\qhvhbUo7GU5iKyQ5mpA8TcQpncCYaQu0wwvr3ybiSTj_Dtqi1Nmcb70kfODJ2Qlg\cimport.h}
\\prereq = {C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\stdio.h}
\\prereq = {C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt.h}
\\prereq = {C:\Program Files (x86)\Microsoft Visual Studio\2019\BuildTools\VC\Tools\MSVC\14.21.27702\lib\x64\\..\..\include\vcruntime.h}
\\prereq = {C:\Program Files (x86)\Microsoft Visual Studio\2019\BuildTools\VC\Tools\MSVC\14.21.27702\lib\x64\\..\..\include\sal.h}
\\prereq = {C:\Program Files (x86)\Microsoft Visual Studio\2019\BuildTools\VC\Tools\MSVC\14.21.27702\lib\x64\\..\..\include\concurrencysal.h}
\\prereq = {C:\msys64\opt\zig\lib\zig\include\vadefs.h}
\\prereq = {C:\Program Files (x86)\Microsoft Visual Studio\2019\BuildTools\VC\Tools\MSVC\14.21.27702\lib\x64\\..\..\include\vadefs.h}
\\prereq = {C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt_wstdio.h}
\\prereq = {C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt_stdio_config.h}
\\prereq = {C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\string.h}
\\prereq = {C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt_memory.h}
\\prereq = {C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt_memcpy_s.h}
\\prereq = {C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\errno.h}
\\prereq = {C:\Program Files (x86)\Microsoft Visual Studio\2019\BuildTools\VC\Tools\MSVC\14.21.27702\lib\x64\\..\..\include\vcruntime_string.h}
\\prereq = {C:\Program Files (x86)\Windows Kits\10\\Include\10.0.17763.0\ucrt\corecrt_wstring.h}
);
}
test "funky targets" {
try depTokenizer(
\\C:\Users\anon\foo.o:
\\C:\Users\anon\foo\ .o:
\\C:\Users\anon\foo\#.o:
\\C:\Users\anon\foo$$.o:
\\C:\Users\anon\\\ foo.o:
\\C:\Users\anon\\#foo.o:
\\C:\Users\anon\$$foo.o:
\\C:\Users\anon\\\ \ \ \ \ foo.o:
,
\\target = {C:\Users\anon\foo.o}
\\target = {C:\Users\anon\foo .o}
\\target = {C:\Users\anon\foo#.o}
\\target = {C:\Users\anon\foo$.o}
\\target = {C:\Users\anon\ foo.o}
\\target = {C:\Users\anon\#foo.o}
\\target = {C:\Users\anon\$foo.o}
\\target = {C:\Users\anon\ foo.o}
);
}
test "error incomplete escape - reverse_solidus" {
try depTokenizer("\\",
\\ERROR: illegal char '\' at position 0: incomplete escape
);
try depTokenizer("\t\\",
\\ERROR: illegal char '\' at position 1: incomplete escape
);
try depTokenizer("\n\\",
\\ERROR: illegal char '\' at position 1: incomplete escape
);
try depTokenizer("\r\\",
\\ERROR: illegal char '\' at position 1: incomplete escape
);
try depTokenizer("\r\n\\",
\\ERROR: illegal char '\' at position 2: incomplete escape
);
try depTokenizer(" \\",
\\ERROR: illegal char '\' at position 1: incomplete escape
);
}
test "error incomplete escape - dollar_sign" {
try depTokenizer("$",
\\ERROR: illegal char '$' at position 0: incomplete escape
);
try depTokenizer("\t$",
\\ERROR: illegal char '$' at position 1: incomplete escape
);
try depTokenizer("\n$",
\\ERROR: illegal char '$' at position 1: incomplete escape
);
try depTokenizer("\r$",
\\ERROR: illegal char '$' at position 1: incomplete escape
);
try depTokenizer("\r\n$",
\\ERROR: illegal char '$' at position 2: incomplete escape
);
try depTokenizer(" $",
\\ERROR: illegal char '$' at position 1: incomplete escape
);
}
test "error incomplete target" {
try depTokenizer("foo.o",
\\ERROR: incomplete target 'foo.o' at position 0
);
try depTokenizer("\tfoo.o",
\\ERROR: incomplete target 'foo.o' at position 1
);
try depTokenizer("\nfoo.o",
\\ERROR: incomplete target 'foo.o' at position 1
);
try depTokenizer("\rfoo.o",
\\ERROR: incomplete target 'foo.o' at position 1
);
try depTokenizer("\r\nfoo.o",
\\ERROR: incomplete target 'foo.o' at position 2
);
try depTokenizer(" foo.o",
\\ERROR: incomplete target 'foo.o' at position 1
);
try depTokenizer("\\ foo.o",
\\ERROR: incomplete target ' foo.o' at position 1
);
try depTokenizer("\\#foo.o",
\\ERROR: incomplete target '#foo.o' at position 1
);
try depTokenizer("\\\\foo.o",
\\ERROR: incomplete target '\foo.o' at position 1
);
try depTokenizer("$$foo.o",
\\ERROR: incomplete target '$foo.o' at position 1
);
}
test "error illegal char at position - bad target escape" {
try depTokenizer("\\\t",
\\ERROR: illegal char \x09 at position 1: bad target escape
);
try depTokenizer("\\\n",
\\ERROR: illegal char \x0A at position 1: bad target escape
);
try depTokenizer("\\\r",
\\ERROR: illegal char \x0D at position 1: bad target escape
);
try depTokenizer("\\\r\n",
\\ERROR: illegal char \x0D at position 1: bad target escape
);
}
test "error illegal char at position - execting dollar_sign" {
try depTokenizer("$\t",
\\ERROR: illegal char \x09 at position 1: expecting '$'
);
try depTokenizer("$\n",
\\ERROR: illegal char \x0A at position 1: expecting '$'
);
try depTokenizer("$\r",
\\ERROR: illegal char \x0D at position 1: expecting '$'
);
try depTokenizer("$\r\n",
\\ERROR: illegal char \x0D at position 1: expecting '$'
);
}
test "error illegal char at position - invalid target" {
try depTokenizer("foo\t.o",
\\ERROR: illegal char \x09 at position 3: invalid target
);
try depTokenizer("foo\n.o",
\\ERROR: illegal char \x0A at position 3: invalid target
);
try depTokenizer("foo\r.o",
\\ERROR: illegal char \x0D at position 3: invalid target
);
try depTokenizer("foo\r\n.o",
\\ERROR: illegal char \x0D at position 3: invalid target
);
}
test "error target - continuation expecting end-of-line" {
try depTokenizer("foo.o: \\\t",
\\target = {foo.o}
\\ERROR: illegal char \x09 at position 8: continuation expecting end-of-line
);
try depTokenizer("foo.o: \\ ",
\\target = {foo.o}
\\ERROR: illegal char \x20 at position 8: continuation expecting end-of-line
);
try depTokenizer("foo.o: \\x",
\\target = {foo.o}
\\ERROR: illegal char 'x' at position 8: continuation expecting end-of-line
);
try depTokenizer("foo.o: \\\x0dx",
\\target = {foo.o}
\\ERROR: illegal char 'x' at position 9: continuation expecting end-of-line
);
}
test "error prereq - continuation expecting end-of-line" {
try depTokenizer("foo.o: foo.h\\\x0dx",
\\target = {foo.o}
\\ERROR: illegal char 'x' at position 14: continuation expecting end-of-line
);
}
// - tokenize input, emit textual representation, and compare to expect
fn depTokenizer(input: []const u8, expect: []const u8) !void {
var arena_allocator = std.heap.ArenaAllocator.init(std.heap.page_allocator);
const arena = &arena_allocator.allocator;
defer arena_allocator.deinit();
var it = Tokenizer.init(arena, input);
var buffer = try std.Buffer.initSize(arena, 0);
var i: usize = 0;
while (true) {
const r = it.next() catch |err| {
switch (err) {
Tokenizer.Error.InvalidInput => {
if (i != 0) try buffer.append("\n");
try buffer.append("ERROR: ");
try buffer.append(it.error_text);
},
else => return err,
}
break;
};
const token = r orelse break;
if (i != 0) try buffer.append("\n");
try buffer.append(@tagName(token.id));
try buffer.append(" = {");
for (token.bytes) |b| {
try buffer.appendByte(printable_char_tab[b]);
}
try buffer.append("}");
i += 1;
}
const got: []const u8 = buffer.toSlice();
if (std.mem.eql(u8, expect, got)) {
testing.expect(true);
return;
}
var out = makeOutput(std.fs.File.write, try std.io.getStdErr());
try out.write("\n");
try printSection(&out, "<<<< input", input);
try printSection(&out, "==== expect", expect);
try printSection(&out, ">>>> got", got);
try printRuler(&out);
testing.expect(false);
}
fn printSection(out: var, label: []const u8, bytes: []const u8) !void {
try printLabel(out, label, bytes);
try hexDump(out, bytes);
try printRuler(out);
try out.write(bytes);
try out.write("\n");
}
fn printLabel(out: var, label: []const u8, bytes: []const u8) !void {
var buf: [80]u8 = undefined;
var text = try std.fmt.bufPrint(buf[0..], "{} {} bytes ", label, bytes.len);
try out.write(text);
var i: usize = text.len;
const end = 79;
while (i < 79) : (i += 1) {
try out.write([_]u8{label[0]});
}
try out.write("\n");
}
fn printRuler(out: var) !void {
var i: usize = 0;
const end = 79;
while (i < 79) : (i += 1) {
try out.write("-");
}
try out.write("\n");
}
fn hexDump(out: var, bytes: []const u8) !void {
const n16 = bytes.len >> 4;
var line: usize = 0;
var offset: usize = 0;
while (line < n16) : (line += 1) {
try hexDump16(out, offset, bytes[offset .. offset + 16]);
offset += 16;
}
const n = bytes.len & 0x0f;
if (n > 0) {
try printDecValue(out, offset, 8);
try out.write(":");
try out.write(" ");
var end1 = std.math.min(offset + n, offset + 8);
for (bytes[offset..end1]) |b| {
try out.write(" ");
try printHexValue(out, b, 2);
}
var end2 = offset + n;
if (end2 > end1) {
try out.write(" ");
for (bytes[end1..end2]) |b| {
try out.write(" ");
try printHexValue(out, b, 2);
}
}
const short = 16 - n;
var i: usize = 0;
while (i < short) : (i += 1) {
try out.write(" ");
}
if (end2 > end1) {
try out.write(" |");
} else {
try out.write(" |");
}
try printCharValues(out, bytes[offset..end2]);
try out.write("|\n");
offset += n;
}
try printDecValue(out, offset, 8);
try out.write(":");
try out.write("\n");
}
fn hexDump16(out: var, offset: usize, bytes: []const u8) !void {
try printDecValue(out, offset, 8);
try out.write(":");
try out.write(" ");
for (bytes[0..8]) |b| {
try out.write(" ");
try printHexValue(out, b, 2);
}
try out.write(" ");
for (bytes[8..16]) |b| {
try out.write(" ");
try printHexValue(out, b, 2);
}
try out.write(" |");
try printCharValues(out, bytes);
try out.write("|\n");
}
fn printDecValue(out: var, value: u64, width: u8) !void {
var buffer: [20]u8 = undefined;
const len = std.fmt.formatIntBuf(buffer[0..], value, 10, false, width);
try out.write(buffer[0..len]);
}
fn printHexValue(out: var, value: u64, width: u8) !void {
var buffer: [16]u8 = undefined;
const len = std.fmt.formatIntBuf(buffer[0..], value, 16, false, width);
try out.write(buffer[0..len]);
}
fn printCharValues(out: var, bytes: []const u8) !void {
for (bytes) |b| {
try out.write(&[_]u8{printable_char_tab[b]});
}
}
fn printUnderstandableChar(out: var, char: u8) !void {
if (!std.ascii.isPrint(char) or char == ' ') {
std.fmt.format(out.context, anyerror, out.output, "\\x{X:2}", .{char}) catch {};
} else {
try out.write("'");
try out.write(&[_]u8{printable_char_tab[char]});
try out.write("'");
}
}
// zig fmt: off
const printable_char_tab: []const u8 =
"................................ !\"#$%&'()*+,-./0123456789:;<=>?" ++
"@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}~." ++
"................................................................" ++
"................................................................";
// zig fmt: on
comptime {
std.debug.assert(printable_char_tab.len == 256);
}
// Make an output var that wraps a context and output function.
// output: must be a function that takes a `self` idiom parameter
// and a bytes parameter
// context: must be that self
fn makeOutput(output: var, context: var) Output(@TypeOf(output)) {
return Output(@TypeOf(output)){
.output = output,
.context = context,
};
}
fn Output(comptime T: type) type {
const args = switch (@typeInfo(T)) {
.Fn => |f| f.args,
else => @compileError("output parameter is not a function"),
};
if (args.len != 2) {
@compileError("output function must take 2 arguments");
}
const at0 = args[0].arg_type orelse @compileError("output arg[0] does not have a type");
const at1 = args[1].arg_type orelse @compileError("output arg[1] does not have a type");
const arg1p = switch (@typeInfo(at1)) {
.Pointer => |p| p,
else => @compileError("output arg[1] is not a slice"),
};
if (arg1p.child != u8) @compileError("output arg[1] is not a u8 slice");
return struct {
output: T,
context: at0,
fn write(self: *@This(), bytes: []const u8) !void {
try self.output(self.context, bytes);
}
};
}