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feat: minimal virtual machine / runtime port from ink-c

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Brett Broadhurst 2026-03-02 11:51:08 -07:00
parent 619eb3b338
commit 849908f251
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5 changed files with 833 additions and 35 deletions
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8
src/AstGen.zig Normal file
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@ -0,0 +1,8 @@
const std = @import("std");
const Ast = @import("./Ast.zig");
const Story = @import("./Story.zig");
/// Perform code generation via tree-walk.
pub fn generate(_: std.mem.Allocator, _: *const Ast) !Story {
return error.OutOfMemory;
}

544
src/Story.zig Normal file
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@ -0,0 +1,544 @@
//! Virtual machine state for story execution.
const std = @import("std");
const tokenizer = @import("./tokenizer.zig");
const Ast = @import("./Ast.zig");
const AstGen = @import("./AstGen.zig");
pub const Object = @import("./object.zig").Object;
const assert = std.debug.assert;
const Story = @This();
allocator: std.mem.Allocator,
dump_writer: ?*std.Io.Writer = null,
is_exited: bool = false,
can_advance: bool = false,
gc_objects: std.SinglyLinkedList = .{},
globals: std.StringHashMapUnmanaged(?*Object) = .empty,
paths: std.ArrayListUnmanaged(*Object) = .empty,
stack: std.ArrayListUnmanaged(?*Object) = .empty,
call_stack: std.ArrayListUnmanaged(CallFrame) = .empty,
stack_max: usize = 128,
pub const CallFrame = struct {
ip: usize,
sp: usize,
callee: *Object.ContentPath,
};
pub const Opcode = enum(u8) {
exit,
ret,
pop,
true,
false,
add,
sub,
mul,
div,
mod,
neg,
not,
cmp_eq,
cmp_lt,
cmp_gt,
cmp_lte,
cmp_gte,
jmp,
jmp_t,
jmp_f,
call,
divert,
load_const,
load,
store,
load_global,
store_global,
load_choice_id,
content,
line,
glue,
choice,
flush,
_,
};
fn getObjectType(object: *const Object) []const u8 {
switch (object.tag) {
.number => return "Number",
.string => return "String",
.content_path => return "ContentPath",
}
}
fn printObject(writer: *std.Io.Writer, object: *const Object) !void {
const type_string = getObjectType(object);
switch (object.tag) {
.number => {
const typed_object: *const Object.Number = @ptrCast(object);
switch (typed_object.data) {
.boolean => |value| {
try writer.print("<type={s} value={s}, address={*}>", .{
type_string,
if (value) "true" else "false",
object,
});
},
.floating => |value| {
try writer.print("<type={s} value={d}, address={*}>", .{
type_string,
value,
object,
});
},
.integer => |value| {
try writer.print("<type={s} value={d}, address={*}>", .{
type_string,
value,
object,
});
},
}
},
.string => {
const typed_object: *const Object.String = @ptrCast(object);
const string_bytes = typed_object.bytes[0..typed_object.length];
try writer.print("<type={s} value=\"{s}\", address={*}>", .{
type_string,
string_bytes,
object,
});
},
.content_path => {
try writer.print("<type={s} address={*}>", .{ type_string, object });
},
}
}
pub const Dumper = struct {
story: *const Story,
fn dumpSimpleInst(
_: *const Dumper,
writer: *std.Io.Writer,
offset: usize,
op: Opcode,
) !usize {
try writer.print("{s}\n", .{@tagName(op)});
return offset + 1;
}
fn dumpByteInst(
_: *const Dumper,
writer: *std.Io.Writer,
context: *const Object.ContentPath,
offset: usize,
op: Opcode,
) !usize {
const arg = context.bytes[offset + 1];
if (op == .load_const) {
try writer.print("{s} {d} (", .{ @tagName(op), arg });
try printObject(writer, context.const_pool[arg]);
try writer.print(")\n", .{});
} else {
try writer.print("{s} {x}\n", .{ @tagName(op), arg });
}
return offset + 2;
}
fn dumpGlobalInst(
_: *const Dumper,
writer: *std.Io.Writer,
context: *const Object.ContentPath,
offset: usize,
op: Opcode,
) !usize {
const arg = context.bytes[offset + 1];
const global_name: *Object.String = @ptrCast(context.const_pool[arg]);
const name_bytes = global_name.bytes[0..global_name.length];
try writer.print("{s} {x} '{s}'\n", .{ @tagName(op), arg, name_bytes });
return offset + 2;
}
fn dumpJumpInst(
_: *const Dumper,
writer: *std.Io.Writer,
context: *const Object.ContentPath,
offset: usize,
op: Opcode,
) !usize {
var jump: u16 = @as(u16, context.bytes[offset + 1]) << 8;
jump |= context.bytes[offset + 2];
try writer.print("{s} 0x{x:0>4} (0x{x:0>4} -> 0x{x:0>4})\n", .{
@tagName(op),
jump,
offset,
offset + 3 + jump,
});
return offset + 3;
}
pub fn dumpInst(
self: *const Dumper,
writer: *std.Io.Writer,
path: *const Object.ContentPath,
offset: usize,
should_prefix: bool,
) !usize {
const name_object = path.name;
const name_bytes = name_object.bytes[0..name_object.length];
const op: Opcode = @enumFromInt(path.bytes[offset]);
if (should_prefix) {
try writer.print("<{s}>:0x{x:0>4} | ", .{ name_bytes, offset });
} else {
try writer.print("0x{x:0>4} | ", .{offset});
}
switch (op) {
.exit,
.ret,
.pop,
.true,
.false,
.add,
.sub,
.mul,
.div,
.mod,
.neg,
.not,
.cmp_eq,
.cmp_lt,
.cmp_lte,
.cmp_gt,
.cmp_gte,
.flush,
.load_choice_id,
.content,
.choice,
.line,
.glue,
=> return self.dumpSimpleInst(writer, offset, op),
.load_const,
.load,
.store,
=> return self.dumpByteInst(writer, path, offset, op),
.load_global,
.store_global,
.call,
.divert,
=> return self.dumpGlobalInst(writer, path, offset, op),
.jmp,
.jmp_t,
.jmp_f,
=> return self.dumpJumpInst(writer, path, offset, op),
else => |code| {
try writer.print("Unknown opcode 0x{x:0>4}\n", .{@intFromEnum(code)});
return offset + 1;
},
}
}
pub fn dump(
self: *const Dumper,
writer: *std.Io.Writer,
path: *const Object.ContentPath,
) !void {
const name_object = path.name;
const name_bytes = name_object.bytes[0..name_object.length];
try writer.print("=== {s}(args: {d}, locals: {d}) ===\n", .{
name_bytes,
path.arity,
path.locals_count,
});
var index: usize = 0;
while (index < path.bytes.len) {
index = try self.dumpInst(writer, path, index, false);
}
return writer.flush();
}
};
pub fn deinit(story: *Story) void {
const gpa = story.allocator;
var next = story.gc_objects.first;
while (next) |node| {
const object: *Object = @alignCast(@fieldParentPtr("node", node));
next = node.next;
object.destroy(story);
}
story.globals.deinit(gpa);
story.paths.deinit(gpa);
story.stack.deinit(gpa);
story.call_stack.deinit(gpa);
}
pub fn trace(story: *Story, writer: *std.Io.Writer, frame: *CallFrame) !void {
try writer.print("\tStack => stack_pointer={d}, objects=[", .{frame.sp});
const stack = &story.stack;
const stack_top = story.stack.items.len;
if (stack_top > 0) {
const last_slot = stack.items[stack.items.len - 1];
for (stack.items[frame.sp .. stack.items.len - 1]) |slot| {
if (slot) |object| {
try printObject(writer, object);
} else {
try writer.writeAll("NULL");
}
try writer.writeAll(", ");
}
if (last_slot) |object| {
try printObject(writer, object);
} else {
try writer.writeAll("NULL");
}
}
try writer.writeAll("]\n");
const dumper = Dumper{ .story = story };
_ = try dumper.dumpInst(writer, frame.callee, frame.ip, true);
return writer.flush();
}
fn isCallStackEmpty(vm: *const Story) bool {
return vm.call_stack.items.len == 0;
}
fn currentFrame(vm: *Story) *CallFrame {
return &vm.call_stack.items[vm.call_stack.items.len - 1];
}
fn peekStack(vm: *Story, offset: usize) ?*Object {
const stack_top = vm.stack.items.len;
assert(stack_top > offset);
assert(stack_top != 0);
return vm.stack.items[stack_top - offset - 1];
}
fn pushStack(vm: *Story, object: *Object) !void {
const gpa = vm.allocator;
const stack_top = vm.stack.items.len;
const max_stack_top = vm.stack_max;
if (stack_top >= max_stack_top) return error.StackOverflow;
return vm.stack.append(gpa, object);
}
fn popStack(vm: *Story) ?*Object {
return vm.stack.pop() orelse unreachable;
}
fn getConstant(_: *Story, frame: *CallFrame, offset: u8) !*Object {
const constant_pool = frame.callee.const_pool;
if (offset >= constant_pool.len) return error.InvalidArgument;
return constant_pool[offset];
}
fn getLocal(vm: *Story, frame: *CallFrame, offset: u8) ?*Object {
const stack_top = vm.stack.capacity;
const stack_offset = frame.sp + offset;
assert(stack_top > stack_offset);
return vm.stack.items[stack_offset];
}
fn setLocal(vm: *Story, frame: *CallFrame, offset: u8, value: *Object) void {
const stack_top = vm.stack.capacity;
const stack_offset = frame.sp + offset;
assert(stack_top > stack_offset);
vm.stack.items[stack_offset] = value;
}
fn getGlobal(vm: *Story, key: *const Object.String) !*Object {
const key_bytes = key.bytes[0..key.length];
const val = vm.globals.get(key_bytes) orelse return error.InvalidVariable;
return val orelse unreachable;
}
fn setGlobal(vm: *Story, key: *const Object.String, value: *Object) !void {
const key_bytes = key.bytes[0..key.length];
return vm.globals.putAssumeCapacity(key_bytes, value);
}
fn execute(vm: *Story, writer: *std.Io.Writer) !void {
defer {
vm.can_advance = false;
}
if (vm.isCallStackEmpty()) return;
const frame = vm.currentFrame();
const code = std.mem.bytesAsSlice(Opcode, frame.callee.bytes);
while (true) {
if (vm.trace_writer) |w| {
vm.trace(w, frame) catch {};
}
switch (code[frame.ip]) {
.exit => {
vm.is_exited = true;
return;
},
.pop => {
const object_top = vm.popStack();
if (object_top == null) return error.InvalidArgument;
frame.ip += 1;
},
.add => {
const lhs = vm.peekStack(1) orelse return error.Bugged;
const rhs = vm.peekStack(0) orelse return error.Bugged;
const value = try Object.add(vm, lhs, rhs);
_ = vm.popStack();
_ = vm.popStack();
try vm.pushStack(value);
frame.ip += 1;
},
.sub, .mul, .div, .mod => |op| {
const lhs = vm.peekStack(1) orelse return error.Bugged;
const rhs = vm.peekStack(0) orelse return error.Bugged;
const value = try Object.Number.performArithmetic(vm, op, @ptrCast(lhs), @ptrCast(rhs));
_ = vm.popStack();
_ = vm.popStack();
try vm.pushStack(@ptrCast(value));
frame.ip += 1;
},
.neg => {
const arg_object = vm.peekStack(0);
if (arg_object) |arg| {
_ = Object.Number.negate(@ptrCast(arg));
}
frame.ip += 1;
},
.content => {
const arg_object = vm.popStack();
if (arg_object) |object| {
const string_object = try Object.String.fromObject(vm, object);
const string_bytes = string_object.bytes[0..string_object.length];
try writer.writeAll(string_bytes);
}
frame.ip += 1;
},
.load_const => {
const index: u8 = @intFromEnum(code[frame.ip + 1]);
const value = try vm.getConstant(frame, index);
try vm.pushStack(value);
frame.ip += 2;
},
.load => {
const arg_offset: u8 = @intFromEnum(code[frame.ip + 1]);
const value = vm.getLocal(frame, arg_offset) orelse return error.Bugged;
try vm.pushStack(value);
frame.ip += 2;
},
.store => {
const value = vm.peekStack(0);
if (value) |arg| {
const arg_offset: u8 = @intFromEnum(code[frame.ip + 1]);
vm.setLocal(frame, arg_offset, arg);
}
frame.ip += 2;
},
.load_global => {
const arg_offset: u8 = @intFromEnum(code[frame.ip + 1]);
const global_name = try vm.getConstant(frame, arg_offset);
assert(global_name.tag == .string);
const global_value = try vm.getGlobal(@ptrCast(global_name));
try vm.pushStack(global_value);
frame.ip += 2;
},
.store_global => {
const arg_offset: u8 = @intFromEnum(code[frame.ip + 1]);
const global_name = try vm.getConstant(frame, arg_offset);
assert(global_name.tag == .string);
const value = vm.peekStack(0);
if (value) |arg| {
try vm.setGlobal(@ptrCast(global_name), arg);
_ = vm.popStack();
try vm.pushStack(arg);
}
frame.ip += 2;
},
else => return error.InvalidInstruction,
}
}
}
pub fn advance(story: *Story) ![]const u8 {
const gpa = story.allocator;
var aw = std.Io.Writer.Allocating.init(gpa);
try story.execute(&aw.writer);
return aw.toOwnedSlice();
}
fn divert(vm: *Story, path_name: []const u8) !void {
const gpa = vm.allocator;
const path_object: ?*Object.ContentPath = blk: {
for (vm.paths.items) |object| {
const current_path: *Object.ContentPath = @ptrCast(object);
const current_name = current_path.name;
// TODO(Brett): We probably should create a method for doing this.
const name_bytes = current_name.bytes[0..current_name.length];
if (std.mem.eql(u8, name_bytes, path_name)) break :blk current_path;
}
break :blk null;
};
if (path_object) |path| {
// TODO(Brett): Add arguments?
const stack_needed = path.arity + path.locals_count;
const stack_ptr = vm.stack.items.len;
try vm.stack.ensureUnusedCapacity(gpa, stack_needed);
try vm.call_stack.ensureUnusedCapacity(gpa, 1);
vm.stack.appendNTimesAssumeCapacity(null, stack_needed);
vm.call_stack.appendAssumeCapacity(.{ .ip = 0, .sp = stack_ptr, .callee = path });
} else return error.InvalidPath;
}
pub const LoadOptions = struct {
dump_writer: ?*std.Io.Writer = null,
stderr_writer: *std.Io.Writer,
use_color: bool = true,
};
pub fn loadFromString(
gpa: std.mem.Allocator,
source_bytes: [:0]const u8,
options: LoadOptions,
) !Story {
var arena_allocator = std.heap.ArenaAllocator.init(gpa);
defer arena_allocator.deinit();
const arena = arena_allocator.allocator();
const ast = try Ast.parse(gpa, arena, source_bytes, "<STDIN>", 0);
if (options.dump_writer) |w| {
try ast.render(gpa, w, .{
.use_color = options.use_color,
});
}
if (ast.errors.len > 0) {
try ast.renderErrors(gpa, options.stderr_writer, .{
.use_color = options.use_color,
});
return error.Invalid;
}
var story = try AstGen.generate(gpa, &ast);
errdefer story.deinit();
try story.divert("@main@");
story.dump_writer = options.dump_writer;
story.can_advance = true;
return story;
}

7
src/main.zig
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@ -4,6 +4,7 @@ const fatal = std.process.fatal;
var stdin_buffer: [4096]u8 align(std.heap.page_size_min) = undefined; var stdin_buffer: [4096]u8 align(std.heap.page_size_min) = undefined;
var stdout_buffer: [4096]u8 align(std.heap.page_size_min) = undefined; var stdout_buffer: [4096]u8 align(std.heap.page_size_min) = undefined;
var stderr_buffer: [4096]u8 align(std.heap.page_size_min) = undefined;
var debug_allocator: std.heap.DebugAllocator(.{}) = .init; var debug_allocator: std.heap.DebugAllocator(.{}) = .init;
const max_src_size = std.math.maxInt(u32); const max_src_size = std.math.maxInt(u32);
@ -75,9 +76,13 @@ fn mainArgs(
const stdout = std.fs.File.stdout(); const stdout = std.fs.File.stdout();
var stdout_writer = stdout.writer(&stdout_buffer); var stdout_writer = stdout.writer(&stdout_buffer);
const stderr = std.fs.File.stderr();
var stderr_writer = stderr.writer(&stderr_buffer);
var story = try ink.Story.loadFromString(gpa, source_bytes, .{ var story = try ink.Story.loadFromString(gpa, source_bytes, .{
.stderr_writer = &stderr_writer.interface,
.dump_writer = &stdout_writer.interface, .dump_writer = &stdout_writer.interface,
.dump_use_color = use_color, .use_color = use_color,
}); });
defer story.deinit(); defer story.deinit();
} }

272
src/object.zig Normal file
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@ -0,0 +1,272 @@
const std = @import("std");
const Story = @import("./Story.zig");
/// Runtime Object, whose memory is managed through the virtual machine's
/// garbage collector.
///
/// This structure is the base object type that is embedded into subtypes.
/// Each subtype has a `.create` method to allocate a new object.
pub const Object = struct {
tag: Tag,
is_marked: bool,
node: std.SinglyLinkedList.Node,
pub const Tag = enum {
number,
string,
content_path,
};
pub fn destroy(object: *Object, story: *Story) void {
switch (object.tag) {
.number => {
const obj: *Object.Number = @alignCast(@fieldParentPtr("base", object));
obj.destroy(story);
},
.string => {
const obj: *Object.String = @alignCast(@fieldParentPtr("base", object));
obj.destroy(story);
},
.content_path => {
const obj: *Object.ContentPath = @alignCast(@fieldParentPtr("base", object));
obj.destroy(story);
},
}
}
pub fn add(story: *Story, lhs: *Object, rhs: *Object) !*Object {
if (lhs.tag == .string or rhs.tag == .string) {
const _lhs = try Object.String.fromObject(story, lhs);
const _rhs = try Object.String.fromObject(story, rhs);
const result = try Object.String.concat(story, _lhs, _rhs);
return @ptrCast(result);
} else if (lhs.tag == .number or rhs.tag == .number) {
const _lhs = try Object.Number.fromObject(story, lhs);
const _rhs = try Object.Number.fromObject(story, rhs);
const result = try Object.Number.performArithmetic(story, .add, _lhs, _rhs);
return @ptrCast(result);
} else {
return error.InvalidArgument;
}
}
pub const Number = struct {
base: Object,
data: Data,
pub const Data = union(enum) {
boolean: bool,
integer: i64,
floating: f64,
};
pub fn create(story: *Story, data: Data) error{OutOfMemory}!*Object.Number {
const gpa = story.allocator;
const alloc_len = @sizeOf(Object.Number);
const raw = try gpa.alignedAlloc(u8, .of(Object.Number), alloc_len);
const object: *Object.Number = @ptrCast(raw);
object.* = .{
.base = .{
.tag = .number,
.is_marked = false,
.node = .{},
},
.data = data,
};
story.gc_objects.prepend(&object.base.node);
return object;
}
pub fn destroy(obj: *Object.Number, story: *Story) void {
const gpa = story.allocator;
const alloc_len = @sizeOf(Object.Number);
const base: [*]align(@alignOf(Object.Number)) u8 = @ptrCast(obj);
gpa.free(base[0..alloc_len]);
}
pub fn fromObject(story: *Story, object: *Object) !*Object.Number {
const data: Object.Number.Data = v: switch (object.tag) {
.number => {
const number: *Object.Number = @ptrCast(object);
switch (number.data) {
.boolean => |value| break :v .{ .integer = @intFromBool(value) },
.integer => |value| break :v .{ .integer = value },
.floating => |value| break :v .{ .floating = value },
}
},
else => break :v .{ .integer = 1 },
};
const obj = Object.Number.create(story, data);
// ink_gc_own(story, obj);
return obj;
}
fn arithmeticOp(comptime T: type, op: Story.Opcode, lhs: T, rhs: T) T {
switch (op) {
.add => return lhs + rhs,
.sub => return lhs - rhs,
.mul => return lhs * rhs,
.div => return @divTrunc(lhs, rhs),
.mod => return @mod(lhs, rhs),
else => unreachable,
}
}
pub fn negate(object: *Object.Number) *Object.Number {
switch (object.data) {
.integer => |*value| value.* = -value.*,
.floating => |*value| value.* = -value.*,
else => unreachable,
}
return object;
}
pub fn performArithmetic(
story: *Story,
op: Story.Opcode,
lhs: *Object.Number,
rhs: *Object.Number,
) !*Object.Number {
if (lhs.data == .floating or rhs.data == .floating) {
const _lhs = try Object.Number.fromObject(story, @ptrCast(lhs));
const _rhs = try Object.Number.fromObject(story, @ptrCast(rhs));
return .create(story, .{
.floating = arithmeticOp(f64, op, _lhs.data.floating, _rhs.data.floating),
});
}
const _lhs = try Object.Number.fromObject(story, @ptrCast(lhs));
const _rhs = try Object.Number.fromObject(story, @ptrCast(rhs));
return .create(story, .{
.integer = arithmeticOp(i64, op, _lhs.data.integer, _rhs.data.integer),
});
}
};
pub const String = struct {
base: Object,
hash: u32, // TODO: Not implemented.
length: usize, // TODO: This could probably be u32.
bytes: [*]const u8,
pub fn create(
story: *Story,
bytes: []const u8,
) error{OutOfMemory}!*Object.String {
const gpa = story.allocator;
const alloc_len = @sizeOf(String) + bytes.len + 1;
const raw = try gpa.alignedAlloc(u8, .of(String), alloc_len);
const object: *String = @ptrCast(raw);
object.* = .{
.base = .{
.tag = .string,
.is_marked = false,
.node = .{},
},
.hash = 0,
.length = bytes.len,
.bytes = undefined,
};
// Point bytes slice to the memory *after* the struct
const buf = raw[@sizeOf(String)..][0 .. bytes.len + 1];
object.bytes = buf.ptr;
@memcpy(buf[0..bytes.len], bytes);
buf[bytes.len] = 0;
story.gc_objects.prepend(&object.base.node);
return object;
}
pub fn destroy(object: *Object.String, story: *Story) void {
const gpa = story.allocator;
const alloc_len = @sizeOf(Object.String) + object.length + 1;
const base: [*]align(@alignOf(Object.String)) u8 = @ptrCast(object);
gpa.free(base[0..alloc_len]);
}
pub fn fromObject(story: *Story, object: *Object) !*Object.String {
// NOTE: 20 bytes should be enough.
const print_buffer_len = 20;
var print_buffer: [print_buffer_len]u8 = undefined;
switch (object.tag) {
.number => {
const number_object: *Object.Number = @ptrCast(object);
const number_bytes = try std.fmt.bufPrint(&print_buffer, "{}", .{
number_object.data.floating,
});
return Object.String.create(story, number_bytes);
},
.string => return @ptrCast(object),
else => unreachable,
}
}
pub fn concat(story: *Story, lhs: *String, rhs: *String) !*Object.String {
const gpa = story.allocator;
const length = lhs.length + rhs.length;
const bytes = try gpa.alloc(u8, length + 1);
defer gpa.free(bytes);
@memcpy(bytes[0..lhs.length], lhs.bytes[0..lhs.length]);
@memcpy(bytes[lhs.length..], rhs.bytes[0..rhs.length]);
//ink_gc_disown(story, INK_OBJ(lhs));
//ink_gc_disown(story, INK_OBJ(rhs));
return .create(story, bytes);
}
};
pub const ContentPath = struct {
base: Object,
name: *Object.String,
arity: usize,
locals_count: usize,
const_pool: []*Object,
bytes: []const u8,
pub fn create(
story: *Story,
name: *Object.String,
arity: usize,
locals_count: usize,
const_pool: []*Object,
bytes: []const u8,
) error{OutOfMemory}!*ContentPath {
const gpa = story.allocator;
const alloc_len = @sizeOf(ContentPath);
const raw = try gpa.alignedAlloc(u8, .of(ContentPath), alloc_len);
const object: *ContentPath = @ptrCast(raw);
object.* = .{
.base = .{
.tag = .content_path,
.is_marked = false,
.node = .{},
},
.name = name,
.arity = arity,
.locals_count = locals_count,
.const_pool = const_pool,
.bytes = bytes,
};
story.gc_objects.prepend(&object.base.node);
return object;
}
pub fn destroy(obj: *ContentPath, story: *Story) void {
const gpa = story.allocator;
gpa.free(obj.const_pool);
gpa.free(obj.bytes);
const alloc_len = @sizeOf(ContentPath);
const base: [*]align(@alignOf(ContentPath)) u8 = @ptrCast(obj);
gpa.free(base[0..alloc_len]);
}
};
};

37
src/root.zig
View file

@ -1,40 +1,9 @@
const std = @import("std");
const tokenizer = @import("tokenizer.zig"); const tokenizer = @import("tokenizer.zig");
pub const Story = @import("Story.zig");
pub const Ast = @import("Ast.zig"); pub const Ast = @import("Ast.zig");
pub const Story = struct {
pub const LoadOptions = struct {
dump_writer: *std.Io.Writer,
dump_use_color: bool = true,
};
pub fn loadFromString(
gpa: std.mem.Allocator,
source_bytes: [:0]const u8,
options: LoadOptions,
) !Story {
var arena_allocator = std.heap.ArenaAllocator.init(gpa);
defer arena_allocator.deinit();
const arena = arena_allocator.allocator();
var ast = try Ast.parse(gpa, arena, source_bytes, "<STDIN>", 0);
defer ast.deinit(gpa);
try ast.render(gpa, options.dump_writer, .{
.use_color = options.dump_use_color,
});
if (ast.errors.len > 0) {
try ast.renderErrors(gpa, options.dump_writer, .{
.use_color = options.dump_use_color,
});
return error.Invalid;
}
return .{};
}
pub fn deinit(_: *Story) void {}
};
test { test {
_ = tokenizer; _ = tokenizer;
_ = Ast;
_ = Story;
} }