zig/tools/merge_anal_dumps.zig
2020-11-07 11:15:44 +00:00

455 lines
14 KiB
Zig

const builtin = @import("builtin");
const std = @import("std");
const json = std.json;
const mem = std.mem;
const fieldIndex = std.meta.fieldIndex;
const TypeId = builtin.TypeId;
pub fn main() anyerror!void {
var arena = std.heap.ArenaAllocator.init(std.heap.page_allocator);
defer arena.deinit();
const allocator = &arena.allocator;
const args = try std.process.argsAlloc(allocator);
var parser: json.Parser = undefined;
var dump = Dump.init(allocator);
for (args[1..]) |arg| {
parser = json.Parser.init(allocator, false);
const json_text = try std.io.readFileAlloc(allocator, arg);
const tree = try parser.parse(json_text);
try dump.mergeJson(tree.root);
}
const stdout = try std.io.getStdOut();
try dump.render(stdout.outStream());
}
/// AST source node
const Node = struct {
file: usize,
line: usize,
col: usize,
fields: []usize,
fn hash(n: Node) u32 {
var hasher = std.hash.Wyhash.init(0);
std.hash.autoHash(&hasher, n.file);
std.hash.autoHash(&hasher, n.line);
std.hash.autoHash(&hasher, n.col);
return @truncate(u32, hasher.final());
}
fn eql(a: Node, b: Node) bool {
return a.file == b.file and
a.line == b.line and
a.col == b.col;
}
};
const Error = struct {
src: usize,
name: []const u8,
fn hash(n: Error) u32 {
var hasher = std.hash.Wyhash.init(0);
std.hash.autoHash(&hasher, n.src);
return @truncate(u32, hasher.final());
}
fn eql(a: Error, b: Error) bool {
return a.src == b.src;
}
};
const simple_types = [_][]const u8{
"Type",
"Void",
"Bool",
"NoReturn",
"ComptimeFloat",
"ComptimeInt",
"Undefined",
"Null",
"AnyFrame",
"EnumLiteral",
};
const Type = union(builtin.TypeId) {
Type,
Void,
Bool,
NoReturn,
ComptimeFloat,
ComptimeInt,
Undefined,
Null,
AnyFrame,
EnumLiteral,
Int: Int,
Float: usize, // bits
Vector: Array,
Optional: usize, // payload type index
Pointer: Pointer,
Array: Array,
Struct, // TODO
ErrorUnion, // TODO
ErrorSet, // TODO
Enum, // TODO
Union, // TODO
Fn, // TODO
BoundFn, // TODO
ArgTuple, // TODO
Opaque, // TODO
Frame, // TODO
const Int = struct {
bits: usize,
signed: bool,
};
const Pointer = struct {
elem: usize,
alignment: usize,
is_const: bool,
is_volatile: bool,
allow_zero: bool,
host_int_bytes: usize,
bit_offset_in_host: usize,
};
const Array = struct {
elem: usize,
len: usize,
};
fn hash(t: Type) u32 {
var hasher = std.hash.Wyhash.init(0);
std.hash.autoHash(&hasher, builtin.TypeId(t));
return @truncate(u32, hasher.final());
}
fn eql(a: Type, b: Type) bool {
return std.meta.eql(a, b);
}
};
const Dump = struct {
zig_id: ?[]const u8 = null,
zig_version: ?[]const u8 = null,
root_name: ?[]const u8 = null,
targets: std.ArrayList([]const u8),
const FileMap = std.StringHashMap(usize);
file_list: std.ArrayList([]const u8),
file_map: FileMap,
const NodeMap = std.HashMap(Node, usize, Node.hash, Node.eql);
node_list: std.ArrayList(Node),
node_map: NodeMap,
const ErrorMap = std.HashMap(Error, usize, Error.hash, Error.eql);
error_list: std.ArrayList(Error),
error_map: ErrorMap,
const TypeMap = std.HashMap(Type, usize, Type.hash, Type.eql);
type_list: std.ArrayList(Type),
type_map: TypeMap,
fn init(allocator: *mem.Allocator) Dump {
return Dump{
.targets = std.ArrayList([]const u8).init(allocator),
.file_list = std.ArrayList([]const u8).init(allocator),
.file_map = FileMap.init(allocator),
.node_list = std.ArrayList(Node).init(allocator),
.node_map = NodeMap.init(allocator),
.error_list = std.ArrayList(Error).init(allocator),
.error_map = ErrorMap.init(allocator),
.type_list = std.ArrayList(Type).init(allocator),
.type_map = TypeMap.init(allocator),
};
}
fn mergeJson(self: *Dump, root: json.Value) !void {
const params = &root.Object.get("params").?.value.Object;
const zig_id = params.get("zigId").?.value.String;
const zig_version = params.get("zigVersion").?.value.String;
const root_name = params.get("rootName").?.value.String;
try mergeSameStrings(&self.zig_id, zig_id);
try mergeSameStrings(&self.zig_version, zig_version);
try mergeSameStrings(&self.root_name, root_name);
for (params.get("builds").?.value.Array.items) |json_build| {
const target = json_build.Object.get("target").?.value.String;
try self.targets.append(target);
}
// Merge files. If the string matches, it's the same file.
const other_files = root.Object.get("files").?.value.Array.items;
var other_file_to_mine = std.AutoHashMap(usize, usize).init(self.a());
for (other_files) |other_file, i| {
const gop = try self.file_map.getOrPut(other_file.String);
if (!gop.found_existing) {
gop.kv.value = self.file_list.items.len;
try self.file_list.append(other_file.String);
}
try other_file_to_mine.putNoClobber(i, gop.kv.value);
}
// Merge AST nodes. If the file id, line, and column all match, it's the same AST node.
const other_ast_nodes = root.Object.get("astNodes").?.value.Array.items;
var other_ast_node_to_mine = std.AutoHashMap(usize, usize).init(self.a());
for (other_ast_nodes) |other_ast_node_json, i| {
const other_file_id = jsonObjInt(other_ast_node_json, "file");
const other_node = Node{
.line = jsonObjInt(other_ast_node_json, "line"),
.col = jsonObjInt(other_ast_node_json, "col"),
.file = other_file_to_mine.getValue(other_file_id).?,
.fields = ([*]usize)(undefined)[0..0],
};
const gop = try self.node_map.getOrPut(other_node);
if (!gop.found_existing) {
gop.kv.value = self.node_list.items.len;
try self.node_list.append(other_node);
}
try other_ast_node_to_mine.putNoClobber(i, gop.kv.value);
}
// convert fields lists
for (other_ast_nodes) |other_ast_node_json, i| {
const my_node_index = other_ast_node_to_mine.get(i).?.value;
const my_node = &self.node_list.items[my_node_index];
if (other_ast_node_json.Object.get("fields")) |fields_json_kv| {
const other_fields = fields_json_kv.value.Array.items;
my_node.fields = try self.a().alloc(usize, other_fields.len);
for (other_fields) |other_field_index, field_i| {
const other_index = @intCast(usize, other_field_index.Integer);
my_node.fields[field_i] = other_ast_node_to_mine.get(other_index).?.value;
}
}
}
// Merge errors. If the AST Node matches, it's the same error value.
const other_errors = root.Object.get("errors").?.value.Array.items;
var other_error_to_mine = std.AutoHashMap(usize, usize).init(self.a());
for (other_errors) |other_error_json, i| {
const other_src_id = jsonObjInt(other_error_json, "src");
const other_error = Error{
.src = other_ast_node_to_mine.getValue(other_src_id).?,
.name = other_error_json.Object.get("name").?.value.String,
};
const gop = try self.error_map.getOrPut(other_error);
if (!gop.found_existing) {
gop.kv.value = self.error_list.items.len;
try self.error_list.append(other_error);
}
try other_error_to_mine.putNoClobber(i, gop.kv.value);
}
// Merge types. Now it starts to get advanced.
// First we identify all the simple types and merge those.
// Example: void, type, noreturn
// We can also do integers and floats.
const other_types = root.Object.get("types").?.value.Array.items;
var other_types_to_mine = std.AutoHashMap(usize, usize).init(self.a());
for (other_types) |other_type_json, i| {
const type_kind = jsonObjInt(other_type_json, "kind");
switch (type_kind) {
fieldIndex(TypeId, "Int").? => {
var signed: bool = undefined;
var bits: usize = undefined;
if (other_type_json.Object.get("i")) |kv| {
signed = true;
bits = @intCast(usize, kv.value.Integer);
} else if (other_type_json.Object.get("u")) |kv| {
signed = false;
bits = @intCast(usize, kv.value.Integer);
} else {
unreachable;
}
const other_type = Type{
.Int = Type.Int{
.bits = bits,
.signed = signed,
},
};
try self.mergeOtherType(other_type, i, &other_types_to_mine);
},
fieldIndex(TypeId, "Float").? => {
const other_type = Type{
.Float = jsonObjInt(other_type_json, "bits"),
};
try self.mergeOtherType(other_type, i, &other_types_to_mine);
},
else => {},
}
inline for (simple_types) |simple_type_name| {
if (type_kind == std.meta.fieldIndex(builtin.TypeId, simple_type_name).?) {
const other_type = @unionInit(Type, simple_type_name, {});
try self.mergeOtherType(other_type, i, &other_types_to_mine);
}
}
}
}
fn mergeOtherType(
self: *Dump,
other_type: Type,
other_type_index: usize,
other_types_to_mine: *std.AutoHashMap(usize, usize),
) !void {
const gop = try self.type_map.getOrPut(other_type);
if (!gop.found_existing) {
gop.kv.value = self.type_list.items.len;
try self.type_list.append(other_type);
}
try other_types_to_mine.putNoClobber(other_type_index, gop.kv.value);
}
fn render(self: *Dump, stream: var) !void {
var jw = json.WriteStream(@TypeOf(stream).Child, 10).init(stream);
try jw.beginObject();
try jw.objectField("typeKinds");
try jw.beginArray();
inline for (@typeInfo(builtin.TypeId).Enum.fields) |field| {
try jw.arrayElem();
try jw.emitString(field.name);
}
try jw.endArray();
try jw.objectField("params");
try jw.beginObject();
try jw.objectField("zigId");
try jw.emitString(self.zig_id.?);
try jw.objectField("zigVersion");
try jw.emitString(self.zig_version.?);
try jw.objectField("rootName");
try jw.emitString(self.root_name.?);
try jw.objectField("builds");
try jw.beginArray();
for (self.targets.items) |target| {
try jw.arrayElem();
try jw.beginObject();
try jw.objectField("target");
try jw.emitString(target);
try jw.endObject();
}
try jw.endArray();
try jw.endObject();
try jw.objectField("types");
try jw.beginArray();
for (self.type_list.items) |t| {
try jw.arrayElem();
try jw.beginObject();
try jw.objectField("kind");
try jw.emitNumber(@enumToInt(builtin.TypeId(t)));
switch (t) {
.Int => |int| {
if (int.signed) {
try jw.objectField("i");
} else {
try jw.objectField("u");
}
try jw.emitNumber(int.bits);
},
.Float => |bits| {
try jw.objectField("bits");
try jw.emitNumber(bits);
},
else => {},
}
try jw.endObject();
}
try jw.endArray();
try jw.objectField("errors");
try jw.beginArray();
for (self.error_list.items) |zig_error| {
try jw.arrayElem();
try jw.beginObject();
try jw.objectField("src");
try jw.emitNumber(zig_error.src);
try jw.objectField("name");
try jw.emitString(zig_error.name);
try jw.endObject();
}
try jw.endArray();
try jw.objectField("astNodes");
try jw.beginArray();
for (self.node_list.items) |node| {
try jw.arrayElem();
try jw.beginObject();
try jw.objectField("file");
try jw.emitNumber(node.file);
try jw.objectField("line");
try jw.emitNumber(node.line);
try jw.objectField("col");
try jw.emitNumber(node.col);
if (node.fields.len != 0) {
try jw.objectField("fields");
try jw.beginArray();
for (node.fields) |field_node_index| {
try jw.arrayElem();
try jw.emitNumber(field_node_index);
}
try jw.endArray();
}
try jw.endObject();
}
try jw.endArray();
try jw.objectField("files");
try jw.beginArray();
for (self.file_list.items) |file| {
try jw.arrayElem();
try jw.emitString(file);
}
try jw.endArray();
try jw.endObject();
}
fn a(self: Dump) *mem.Allocator {
return self.targets.allocator;
}
fn mergeSameStrings(opt_dest: *?[]const u8, src: []const u8) !void {
if (opt_dest.*) |dest| {
if (!mem.eql(u8, dest, src))
return error.MismatchedDumps;
} else {
opt_dest.* = src;
}
}
};
fn jsonObjInt(json_val: json.Value, field: []const u8) usize {
const uncasted = json_val.Object.get(field).?.value.Integer;
return @intCast(usize, uncasted);
}