Initial replacement of Sokol shdc with a runtime compilation system

This commit is contained in:
kayomn 2024-07-02 23:08:25 +01:00
parent f100aa0d46
commit 40067c067b
35 changed files with 915 additions and 3753 deletions

2
.gitattributes vendored
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@ -1,3 +1 @@
tools/sokol-shdc filter=lfs diff=lfs merge=lfs -text
tools/sokol-shdc.exe filter=lfs diff=lfs merge=lfs -text
*.bmp filter=lfs diff=lfs merge=lfs -text

4
.gitignore vendored
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@ -1,4 +1,4 @@
# Generated assets
/.zig-cache
.zig-cache
/zig-out
*.glsl.zig
*.spv

3
.gitmodules vendored Normal file
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@ -0,0 +1,3 @@
[submodule "ext/spirv-cross"]
path = ext/spirv-cross
url = https://github.com/KhronosGroup/SPIRV-Cross/

14
.vscode/settings.json vendored
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@ -10,5 +10,17 @@
"editor.detectIndentation": false,
"editor.insertSpaces": false,
"editor.rulers": [120],
}
},
"files.exclude": {
"**/.git": true,
"**/.svn": true,
"**/.hg": true,
"**/CVS": true,
"**/.DS_Store": true,
"**/Thumbs.db": true,
"**/.zig-cache": true,
"zig-out": true,
".drone.yml": true,
},
}

29
b64_dump.py Executable file
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@ -0,0 +1,29 @@
#!/bin/python
import sys
import base64
import struct
def format_base64_to_u32(base64_string):
# Decode the Base64 string
decoded_bytes = base64.b64decode(base64_string)
# Interpret the bytes as a sequence of u32 values
u32_values = struct.unpack('I' * (len(decoded_bytes) // 4), decoded_bytes)
# Format the u32 values as C-style hex values
formatted_u32_values = ', '.join(f'0x{value:08x}' for value in u32_values)
# Split the formatted string into lines of 8 values each
lines = [', '.join(formatted_u32_values.split(', ')[i:i+8]) for i in range(0, len(u32_values), 8)]
# Print the formatted values
print(',\n'.join(lines))
if __name__ == "__main__":
if len(sys.argv) != 2:
print(f"Usage: python {sys.argv[0]} <base64_string>")
sys.exit(1)
base64_string = sys.argv[1]
format_base64_to_u32(base64_string)

134
build.zig
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@ -6,17 +6,27 @@ pub fn build(b: *std.Build) !void {
const target = b.standardTargetOptions(.{});
const optimize = b.standardOptimizeOption(.{});
const coral_module = b.createModule(.{
.root_source_file = b.path("src/coral/coral.zig"),
});
const ona_module = add: {
const sokol_dependency = b.dependency("sokol", .{
.target = target,
.optimize = optimize,
});
const module = b.addModule("ona", .{
const coral_module = b.createModule(.{
.root_source_file = b.path("src/coral/coral.zig"),
});
const flow_module = b.createModule(.{
.root_source_file = b.path("src/flow/flow.zig"),
.imports = &.{
.{
.name = "coral",
.module = coral_module,
},
}
});
const ona_module = b.createModule(.{
.root_source_file = b.path("src/ona/ona.zig"),
.imports = &.{
@ -29,11 +39,16 @@ pub fn build(b: *std.Build) !void {
.name = "coral",
.module = coral_module,
},
.{
.name = "flow",
.module = flow_module,
},
},
});
break: add module;
};
ona_module.addIncludePath(b.path("ext/"));
ona_module.linkLibrary(build_spirvcross(b, target, optimize));
b.step("test", "Run unit tests").dependOn(create: {
const tests = b.addTest(.{
@ -46,92 +61,59 @@ pub fn build(b: *std.Build) !void {
});
b.installArtifact(add: {
const compile_step = b.addExecutable(.{
const exe = b.addExecutable(.{
.name = "main",
.root_source_file = b.path("src/main.zig"),
.target = target,
.optimize = optimize,
});
compile_step.root_module.addImport("ona", ona_module);
compile_step.root_module.addImport("coral", coral_module);
compile_step.linkLibC();
compile_step.linkSystemLibrary("SDL2");
exe.root_module.addImport("ona", ona_module);
exe.root_module.addImport("coral", coral_module);
exe.linkLibC();
exe.linkSystemLibrary("SDL2");
try depend_on_shaders(b, target, "src/ona/gfx/shaders/", &compile_step.step);
break: add compile_step;
break: add exe;
});
}
fn depend_on_shaders(
fn build_spirvcross(
b: *std.Build,
target: std.Build.ResolvedTarget,
shader_dir_path: []const u8,
step: *std.Build.Step,
) !void {
var dir = try std.fs.cwd().openDir(shader_dir_path, .{ .iterate = true });
mode: std.builtin.OptimizeMode,
) *std.Build.Step.Compile {
const dir = "ext/spirv-cross/";
defer dir.close();
var walker = try dir.walk(b.allocator);
defer walker.deinit();
const shdc_path = switch (builtin.os.tag) {
.windows => "./tools/sokol-shdc.exe",
.linux => "./tools/sokol-shdc",
else => @compileError("cannot compile sokol shaders on this platform"),
const sources = [_][]const u8{
"spirv_cross.cpp",
"spirv_parser.cpp",
"spirv_cross_parsed_ir.cpp",
"spirv_cfg.cpp",
"spirv_glsl.cpp",
"spirv_msl.cpp",
"spirv_hlsl.cpp",
"spirv_reflect.cpp",
"spirv_cross_util.cpp",
"spirv_cross_c.cpp",
};
const path_buffer_max = 255;
var input_path_buffer = [_]u8{undefined} ** path_buffer_max;
var output_path_buffer = [_]u8{undefined} ** path_buffer_max;
const glsl = if (target.result.isDarwin()) "glsl410" else "glsl430";
const slang = glsl ++ ":metal_macos:hlsl5:glsl300es:wgsl";
while (try walker.next()) |entry| {
if (entry.kind != .file or !std.mem.endsWith(u8, entry.path, ".glsl")) {
continue;
}
const input_path = try std.fmt.bufPrint(&input_path_buffer, "{s}{s}", .{shader_dir_path, entry.path});
const output_path = try std.fmt.bufPrint(&output_path_buffer, "{s}.zig", .{input_path});
const output = std.fs.path.basename(output_path);
dir.access(output, .{.mode = .read_only}) catch {
const cmd = b.addSystemCommand(&.{
shdc_path,
"-i",
input_path,
"-o",
output_path,
"-l",
slang,
"-f",
"sokol_zig",
const lib = b.addStaticLibrary(.{
.name = "spirvcross",
.target = target,
.optimize = mode,
});
step.dependOn(&cmd.step);
switch (lib.rootModuleTarget().abi) {
.msvc => lib.linkLibC(),
else => lib.linkLibCpp(),
}
continue;
};
if ((try dir.statFile(entry.path)).mtime > (try dir.statFile(output)).mtime) {
const cmd = b.addSystemCommand(&.{
shdc_path,
"-i",
input_path,
"-o",
output_path,
"-l",
slang,
"-f",
"sokol_zig",
inline for (sources) |src| {
lib.addCSourceFile(.{
.file = b.path(dir ++ src),
.flags = &.{"-fstrict-aliasing", "-DSPIRV_CROSS_C_API_GLSL", "-DSPIRV_CROSS_C_API_HLSL", "-DSPIRV_CROSS_C_API_MSL"},
});
}
step.dependOn(&cmd.step);
}
}
return lib;
}

1
ext/spirv-cross Submodule

@ -0,0 +1 @@
Subproject commit 6fd1f75636b1c424b809ad8a84804654cf5ae48b

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@ -1,7 +1,5 @@
pub const ascii = @import("./ascii.zig");
pub const dag = @import("./dag.zig");
pub const files = @import("./files.zig");
pub const hashes = @import("./hashes.zig");
@ -16,296 +14,8 @@ pub const scalars = @import("./scalars.zig");
pub const slices = @import("./slices.zig");
pub const slots = @import("./slots.zig");
pub const stack = @import("./stack.zig");
pub const system = @import("./system.zig");
pub const utf8 = @import("./utf8.zig");
pub const vectors = @import("./vectors.zig");
pub const World = @import("./World.zig");
const std = @import("std");
pub const ResourceOptions = struct {
thread_restriction: World.ThreadRestriction,
read_only: bool = false,
};
pub fn Read(comptime Value: type) type {
return Resource(Value, .{
.thread_restriction = .none,
.read_only = true,
});
}
pub fn ReadBlocking(comptime Value: type) type {
return Resource(Value, .{
.thread_restriction = .main,
.read_only = true,
});
}
pub fn Resource(comptime Value: type, comptime options: ResourceOptions) type {
const value_info = @typeInfo(Value);
const Qualified = switch (value_info) {
.Optional => @Type(.{
.Optional = .{
.child = .{
.Pointer = .{
.is_allowzero = false,
.sentinel = null,
.address_space = .generic,
.is_volatile = false,
.alignment = @alignOf(Value),
.size = .One,
.child = Value,
.is_const = options.read_only,
},
},
},
}),
else => @Type(.{
.Pointer = .{
.is_allowzero = false,
.sentinel = null,
.address_space = .generic,
.is_volatile = false,
.alignment = @alignOf(Value),
.size = .One,
.child = Value,
.is_const = options.read_only,
},
}),
};
return struct {
res: Qualified,
const Self = @This();
pub const State = struct {
res: Qualified,
};
pub fn bind(context: system.BindContext) std.mem.Allocator.Error!State {
const thread_restriction_name = switch (thread_restriction) {
.main => "main thread-restricted ",
.none => ""
};
const res = switch (options.read_only) {
true => (try context.register_read_only_resource_access(thread_restriction, Value)),
false => (try context.register_read_write_resource_access(thread_restriction, Value)),
};
return .{
.res = switch (value_info) {
.Optional => res,
else => res orelse {
@panic(std.fmt.comptimePrint("attempt to use {s}{s} {s} that has not yet been set", .{
thread_restriction_name,
if (options.read_only) "read-only" else "read-write",
@typeName(Value),
}));
},
},
};
}
pub fn init(state: *State) Self {
return .{
.res = state.res,
};
}
pub const thread_restriction = options.thread_restriction;
};
}
pub fn Write(comptime Value: type) type {
return Resource(Value, .{
.thread_restriction = .none,
});
}
pub fn WriteBlocking(comptime Value: type) type {
return Resource(Value, .{
.thread_restriction = .main,
});
}
fn parameter_type(comptime Value: type) *const system.Info.Parameter {
const has_state = @hasDecl(Value, "State");
if (@sizeOf(Value) == 0) {
@compileError("System parameters must have a non-zero size");
}
const parameters = struct {
fn bind(allocator: std.mem.Allocator, context: system.BindContext) std.mem.Allocator.Error!?*anyopaque {
if (has_state) {
const value_name = @typeName(Value);
if (!@hasDecl(Value, "bind")) {
@compileError(
"a `bind` declaration on " ++
value_name ++
" is requied for parameter types with a `State` declaration");
}
const bind_type = @typeInfo(@TypeOf(Value.bind));
if (bind_type != .Fn) {
@compileError("`bind` declaration on " ++ value_name ++ " must be a fn");
}
if (bind_type.Fn.params.len != 1 or bind_type.Fn.params[0].type.? != system.BindContext) {
@compileError(
"`bind` fn on " ++
value_name ++
" must accept " ++
@typeName(system.BindContext) ++
" as it's one and only argument");
}
const state = try allocator.create(Value.State);
state.* = switch (bind_type.Fn.return_type.?) {
Value.State => Value.bind(context),
std.mem.Allocator.Error!Value.State => try Value.bind(context),
else => @compileError(
"`bind` fn on " ++
@typeName(Value) ++
" must return " ++
@typeName(Value.State) ++
" or " ++
@typeName(std.mem.Allocator.Error!Value.State)),
};
return @ptrCast(state);
} else {
return null;
}
}
fn init(argument: *anyopaque, state: ?*anyopaque) void {
const value_name = @typeName(Value);
if (!@hasDecl(Value, "init")) {
@compileError("an `init` declaration on " ++ value_name ++ " is requied for parameter types");
}
const init_type = @typeInfo(@TypeOf(Value.init));
if (init_type != .Fn) {
@compileError("`init` declaration on " ++ value_name ++ " must be a fn");
}
if (init_type.Fn.return_type.? != Value) {
@compileError("`init` fn on " ++ value_name ++ " must return a " ++ value_name);
}
const concrete_argument = @as(*Value, @ptrCast(@alignCast(argument)));
if (has_state) {
if (init_type.Fn.params.len != 1 or init_type.Fn.params[0].type.? != *Value.State) {
@compileError("`init` fn on stateful " ++ value_name ++ " must accept a " ++ @typeName(*Value.State));
}
concrete_argument.* = Value.init(@ptrCast(@alignCast(state.?)));
} else {
if (init_type.Fn.params.len != 0) {
@compileError("`init` fn on statelss " ++ value_name ++ " cannot use parameters");
}
concrete_argument.* = Value.init();
}
}
fn unbind(allocator: std.mem.Allocator, state: ?*anyopaque) void {
if (@hasDecl(Value, "unbind")) {
if (has_state) {
const typed_state = @as(*Value.State, @ptrCast(@alignCast(state.?)));
Value.unbind(typed_state);
allocator.destroy(typed_state);
} else {
Value.unbind();
}
}
}
};
return comptime &.{
.thread_restriction = if (@hasDecl(Value, "thread_restriction")) Value.thread_restriction else .none,
.init = parameters.init,
.bind = parameters.bind,
.unbind = parameters.unbind,
};
}
pub fn system_fn(comptime call: anytype) *const system.Info {
const Call = @TypeOf(call);
const system_info = comptime generate: {
switch (@typeInfo(Call)) {
.Fn => |call_fn| {
if (call_fn.params.len > system.max_parameters) {
@compileError("number of parameters to `call` cannot be more than 16");
}
const systems = struct {
fn run(parameters: []const *const system.Info.Parameter, states: *const [system.max_parameters]?*anyopaque) anyerror!void {
var call_args = @as(std.meta.ArgsTuple(Call), undefined);
inline for (parameters, &call_args, states[0 .. parameters.len]) |parameter, *call_arg, state| {
parameter.init(call_arg, state);
}
switch (@typeInfo(call_fn.return_type.?)) {
.Void => @call(.auto, call, call_args),
.ErrorUnion => try @call(.auto, call, call_args),
else => @compileError("number of parameters to `call` must return void or !void"),
}
}
};
var parameters = @as([system.max_parameters]*const system.Info.Parameter, undefined);
var thread_restriction = World.ThreadRestriction.none;
for (0 .. call_fn.params.len) |index| {
const CallParam = call_fn.params[index].type.?;
const parameter = parameter_type(CallParam);
if (parameter.thread_restriction != .none) {
if (thread_restriction != .none and thread_restriction != parameter.thread_restriction) {
@compileError("a system may not have conflicting thread restrictions");
}
thread_restriction = parameter.thread_restriction;
}
parameters[index] = parameter;
}
break: generate &.{
.parameters = parameters,
.parameter_count = call_fn.params.len,
.execute = systems.run,
.thread_restriction = thread_restriction,
};
},
else => @compileError("parameter `call` must be a function"),
}
};
return system_info;
}

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@ -1,998 +0,0 @@
const coral = @import("coral");
const file = @import("../file.zig");
const script = @import("../script.zig");
const std = @import("std");
const tokens = @import("./tokens.zig");
const tree = @import("./tree.zig");
name: *script.Object,
arity: u8,
opcodes: coral.Stack(Opcode),
lines: coral.Stack(tokens.Line),
cursor: usize,
constants: coral.Stack(*script.Object),
bindings: []?*script.Object,
externals: *script.Object,
const Compiler = struct {
chunk: *Self,
env: *script.Runtime,
fn compile_argument(self: *const Compiler, environment: *const tree.Environment, initial_argument: ?*const tree.Expr) script.Error!u8 {
// TODO: Exceeding 255 arguments will make the VM crash.
var maybe_argument = initial_argument;
var argument_count = @as(u8, 0);
while (maybe_argument) |argument| {
try self.compile_expression(environment, argument, null);
maybe_argument = argument.next;
argument_count += 1;
}
return argument_count;
}
fn compile_expression(self: *const Compiler, environment: *const tree.Environment, expression: *const tree.Expr, name: ?[]const u8) script.Error!void {
const number_format = coral.utf8.DecimalFormat{
.delimiter = "_",
.positive_prefix = .none,
};
switch (expression.kind) {
.nil_literal => try self.chunk.write(expression.line, .push_nil),
.true_literal => try self.chunk.write(expression.line, .push_true),
.false_literal => try self.chunk.write(expression.line, .push_false),
.number_literal => |literal| {
for (literal) |codepoint| {
if (codepoint == '.') {
return self.chunk.write(expression.line, .{
.push_const = try self.declare_float(number_format.parse(literal, script.Float) orelse unreachable),
});
}
}
try self.chunk.write(expression.line, .{
.push_const = try self.declare_fixed(number_format.parse(literal, script.Fixed) orelse unreachable),
});
},
.string_literal => |literal| {
try self.chunk.write(expression.line, .{.push_const = try self.declare_string(literal)});
},
.vector2 => |vector2| {
try self.compile_expression(environment, vector2.x, null);
try self.compile_expression(environment, vector2.y, null);
try self.chunk.write(expression.line, .push_vector2);
},
.vector3 => |vector3| {
try self.compile_expression(environment, vector3.x, null);
try self.compile_expression(environment, vector3.y, null);
try self.compile_expression(environment, vector3.z, null);
try self.chunk.write(expression.line, .push_vector3);
},
.string_template => {
var current_expression = expression.next orelse {
return self.chunk.write(expression.line, .{.push_const = try self.declare_string("")});
};
var component_count = @as(u8, 0);
while (true) {
try self.compile_expression(environment, current_expression, null);
component_count += 1;
current_expression = current_expression.next orelse {
return self.chunk.write(expression.line, .{.push_concat = component_count});
};
}
},
.symbol_literal => |literal| {
try self.chunk.write(expression.line, .{.push_const = try self.declare_symbol(literal)});
},
.table => |table| {
var entries = table.nodes();
var num_entries = @as(u16, 0);
while (entries.next()) |entry| {
try self.compile_expression(environment, entry.key, null);
try self.compile_expression(environment, entry.value, null);
num_entries = coral.scalars.add(num_entries, 1) orelse {
return self.env.raise(error.OutOfMemory, "too many initializer values", .{});
};
}
try self.chunk.write(expression.line, .{.push_table = num_entries});
},
.lambda_construct => |lambda_construct| {
var chunk = try Self.init(self.env, name orelse "<lambda>", lambda_construct.environment, &.{});
errdefer chunk.deinit(self.env);
if (lambda_construct.environment.capture_count == 0) {
try self.chunk.write(expression.line, .{.push_const = try self.declare_chunk(chunk)});
} else {
const lambda_captures = lambda_construct.environment.get_captures();
var index = lambda_captures.len;
while (index != 0) {
index -= 1;
try self.chunk.write(expression.line, switch (lambda_captures[index]) {
.declaration_index => |declaration_index| .{.push_local = declaration_index},
.capture_index => |capture_index| .{.push_binding = capture_index},
});
}
try self.chunk.write(expression.line, .{.push_const = try self.declare_chunk(chunk)});
try self.chunk.write(expression.line, .{.bind = lambda_construct.environment.capture_count});
}
},
.binary_op => |binary_op| {
try self.compile_expression(environment, binary_op.lhs_operand, null);
try self.compile_expression(environment, binary_op.rhs_operand, null);
try self.chunk.write(expression.line, switch (binary_op.operation) {
.addition => .add,
.subtraction => .sub,
.multiplication => .mul,
.divsion => .div,
.greater_equals_comparison => .cge,
.greater_than_comparison => .cgt,
.equals_comparison => .eql,
.less_than_comparison => .clt,
.less_equals_comparison => .cle,
});
},
.unary_op => |unary_op| {
try self.compile_expression(environment, unary_op.operand, null);
try self.chunk.write(expression.line, switch (unary_op.operation) {
.boolean_negation => .not,
.numeric_negation => .neg,
});
},
.invoke => |invoke| {
const argument_count = try self.compile_argument(environment, invoke.argument);
try self.compile_expression(environment, invoke.object, null);
try self.chunk.write(expression.line, .{.call = argument_count});
},
.group => |group| try self.compile_expression(environment, group, null),
.declaration_get => |declaration_get| {
if (get_local_index(environment, declaration_get.declaration)) |index| {
if (is_declaration_boxed(declaration_get.declaration)) {
try self.chunk.write(expression.line, .{.push_local = index});
try self.chunk.write(expression.line, .get_box);
} else {
try self.chunk.write(expression.line, .{.push_local = index});
}
return;
}
if (try get_binding_index(environment, declaration_get.declaration)) |index| {
try self.chunk.write(expression.line, .{.push_binding = index});
if (is_declaration_boxed(declaration_get.declaration)) {
try self.chunk.write(expression.line, .get_box);
}
return;
}
return self.env.raise(error.IllegalState, "local out of scope", .{});
},
.declaration_set => |declaration_set| {
if (get_local_index(environment, declaration_set.declaration)) |index| {
if (is_declaration_boxed(declaration_set.declaration)) {
try self.chunk.write(expression.line, .{.push_local = index});
try self.compile_expression(environment, declaration_set.assign, null);
try self.chunk.write(expression.line, .set_box);
} else {
try self.compile_expression(environment, declaration_set.assign, null);
try self.chunk.write(expression.line, .{.set_local = index});
}
return;
}
if (try get_binding_index(environment, declaration_set.declaration)) |index| {
try self.compile_expression(environment, declaration_set.assign, null);
try self.chunk.write(expression.line, .{.push_binding = index});
if (is_declaration_boxed(declaration_set.declaration)) {
try self.chunk.write(expression.line, .set_box);
}
return;
}
return self.env.raise(error.IllegalState, "local out of scope", .{});
},
.field_get => |field_get| {
try self.chunk.write(expression.line, .{.push_const = try self.declare_symbol(field_get.identifier)});
try self.compile_expression(environment, field_get.object, null);
try self.chunk.write(expression.line, .get_dynamic);
},
.field_set => |field_set| {
try self.chunk.write(expression.line, .{.push_const = try self.declare_symbol(field_set.identifier)});
try self.compile_expression(environment, field_set.assign, null);
try self.compile_expression(environment, field_set.object, null);
try self.chunk.write(expression.line, .set_dynamic);
},
.subscript_get => |subscript_get| {
try self.compile_expression(environment, subscript_get.index, null);
try self.compile_expression(environment, subscript_get.object, null);
try self.chunk.write(expression.line, .get_dynamic);
},
.subscript_set => |subscript_set| {
try self.compile_expression(environment, subscript_set.index, null);
try self.compile_expression(environment, subscript_set.assign, null);
try self.compile_expression(environment, subscript_set.object, null);
try self.chunk.write(expression.line, .set_dynamic);
},
.external_get => |external_get| {
try self.chunk.write(expression.line, .{.push_const = try self.declare_symbol(external_get.name)});
try self.chunk.write(expression.line, .get_external);
},
}
}
pub fn compile_environment(self: *const Compiler, environment: *const tree.Environment) script.Error!void {
if (environment.statement) |statement| {
const last_statement = try self.compile_statement(environment, statement);
if (last_statement.kind != .@"return") {
try self.chunk.write(last_statement.line, .push_nil);
}
}
}
fn compile_statement(self: *const Compiler, environment: *const tree.Environment, initial_statement: *const tree.Stmt) script.Error!*const tree.Stmt {
var current_statement = initial_statement;
while (true) {
switch (current_statement.kind) {
.@"return" => |@"return"| {
if (@"return".returned_expression) |expression| {
try self.compile_expression(environment, expression, null);
} else {
try self.chunk.write(current_statement.line, .push_nil);
}
// TODO: Omit ret calls at ends of chunk.
try self.chunk.write(current_statement.line, .ret);
},
.@"while" => |@"while"| {
try self.compile_expression(environment, @"while".loop_expression, null);
try self.chunk.write(current_statement.line, .{.jf = 0});
const origin_index = @as(u16, @intCast(self.chunk.opcodes.values.len - 1));
_ = try self.compile_statement(environment, @"while".loop);
self.chunk.opcodes.values[origin_index].jf = @intCast(self.chunk.opcodes.values.len - 1);
try self.compile_expression(environment, @"while".loop_expression, null);
try self.chunk.write(current_statement.line, .{.jt = origin_index});
},
.@"if" => |@"if"| {
try self.compile_expression(environment, @"if".then_expression, null);
try self.chunk.write(current_statement.line, .{.jf = 0});
const origin_index = @as(u16, @intCast(self.chunk.opcodes.values.len - 1));
_ = try self.compile_statement(environment, @"if".@"then");
self.chunk.opcodes.values[origin_index].jf = @intCast(self.chunk.opcodes.values.len - 1);
if (@"if".@"else") |@"else"| {
_ = try self.compile_statement(environment, @"else");
}
},
.declare => |declare| {
try self.compile_expression(environment, declare.initial_expression, declare.declaration.identifier);
if (is_declaration_boxed(declare.declaration)) {
try self.chunk.write(current_statement.line, .push_boxed);
}
},
.top_expression => |top_expression| {
try self.compile_expression(environment, top_expression, null);
if (top_expression.kind == .invoke) {
try self.chunk.write(current_statement.line, .pop);
}
},
}
current_statement = current_statement.next orelse return current_statement;
}
}
const constants_max = @as(usize, std.math.maxInt(u16));
fn declare_chunk(self: *const Compiler, chunk: Self) script.Error!u16 {
if (self.chunk.constants.values.len == std.math.maxInt(u16)) {
return self.env.raise(error.BadSyntax, "chunks cannot contain more than {max} constants", .{
.max = @as(usize, std.math.maxInt(u16)),
});
}
const constant = (try self.env.new_dynamic(chunk)).pop().?;
errdefer self.env.release(constant);
try self.chunk.constants.push(constant);
return @intCast(self.chunk.constants.values.len - 1);
}
fn declare_fixed(self: *const Compiler, fixed: script.Fixed) script.Error!u16 {
if (self.chunk.constants.values.len == constants_max) {
return self.env.raise(error.BadSyntax, "chunks cannot contain more than {max} constants", .{
.max = constants_max,
});
}
const constant = (try self.env.new_fixed(fixed)).pop().?;
errdefer self.env.release(constant);
try self.chunk.constants.push(constant);
return @intCast(self.chunk.constants.values.len - 1);
}
fn declare_float(self: *const Compiler, float: script.Float) script.Error!u16 {
if (self.chunk.constants.values.len == constants_max) {
return self.env.raise(error.BadSyntax, "chunks cannot contain more than {max} constants", .{
.max = constants_max,
});
}
const constant = (try self.env.new_float(float)).pop().?;
errdefer self.env.release(constant);
try self.chunk.constants.push(constant);
return @intCast(self.chunk.constants.values.len - 1);
}
fn declare_string(self: *const Compiler, string: []const u8) script.Error!u16 {
if (self.chunk.constants.values.len == constants_max) {
return self.env.raise(error.BadSyntax, "chunks cannot contain more than {max} constants", .{
.max = constants_max,
});
}
const constant = (try self.env.new_string(string)).pop().?;
errdefer self.env.release(constant);
try self.chunk.constants.push(constant);
return @intCast(self.chunk.constants.values.len - 1);
}
fn declare_vector2(self: *const Compiler, vector: script.Vector2) script.Error!u16 {
if (self.chunk.constants.values.len == constants_max) {
return self.env.raise(error.BadSyntax, "chunks cannot contain more than {max} constants", .{
.max = constants_max,
});
}
const constant = (try self.env.new_vector2(vector)).pop().?;
errdefer self.env.release(constant);
try self.chunk.constants.push(constant);
return @intCast(self.chunk.constants.values.len - 1);
}
fn declare_vector3(self: *const Compiler, vector: script.Vector3) script.Error!u16 {
if (self.chunk.constants.values.len == constants_max) {
return self.env.raise(error.BadSyntax, "chunks cannot contain more than {max} constants", .{
.max = constants_max,
});
}
const constant = (try self.env.new_vector3(vector)).pop().?;
errdefer self.env.release(constant);
try self.chunk.constants.push(constant);
return @intCast(self.chunk.constants.values.len - 1);
}
fn declare_symbol(self: *const Compiler, symbol: []const u8) script.Error!u16 {
if (self.chunk.constants.values.len == constants_max) {
return self.env.raise(error.BadSyntax, "chunks cannot contain more than {max} constants", .{
.max = constants_max,
});
}
const constant = (try self.env.new_symbol(symbol)).pop().?;
errdefer self.env.release(constant);
try self.chunk.constants.push(constant);
return @intCast(self.chunk.constants.values.len - 1);
}
fn get_binding_index(environment: *const tree.Environment, declaration: *const tree.Declaration) script.Error!?u8 {
var binding_index = @as(u8, 0);
while (binding_index < environment.capture_count) : (binding_index += 1) {
var capture = &environment.captures[binding_index];
var target_environment = environment.enclosing orelse return null;
while (capture.* == .capture_index) {
capture = &target_environment.captures[capture.capture_index];
target_environment = target_environment.enclosing orelse return null;
}
std.debug.assert(capture.* == .declaration_index);
if (&target_environment.declarations[capture.declaration_index] == declaration) {
return binding_index;
}
}
return null;
}
fn get_local_index(environment: *const tree.Environment, declaration: *const tree.Declaration) ?u8 {
var remaining = environment.declaration_count;
while (remaining != 0) {
remaining -= 1;
if (&environment.declarations[remaining] == declaration) {
return remaining;
}
}
return null;
}
fn is_declaration_boxed(declaration: *const tree.Declaration) bool {
return declaration.is.captured and !declaration.is.readonly;
}
};
pub const Opcode = union (enum) {
ret,
pop,
push_nil,
push_true,
push_false,
push_const: u16,
push_local: u8,
push_top,
push_vector2,
push_vector3,
push_table: u16,
push_binding: u8,
push_concat: u8,
push_boxed,
set_local: u8,
get_dynamic,
set_dynamic,
get_external,
get_box,
set_box,
call: u8,
bind: u8,
not,
neg,
add,
sub,
mul,
div,
eql,
cgt,
clt,
cge,
cle,
jt: u16,
jf: u16,
};
pub const External = struct {[]const u8, *script.Object};
const Self = @This();
pub fn deinit(self: *Self, env: *script.Runtime) void {
while (self.constants.pop()) |constant| {
env.release(constant.*);
}
self.constants.deinit();
self.opcodes.deinit();
self.lines.deinit();
env.release(self.name);
env.release(self.externals);
if (self.bindings.len != 0) {
for (self.bindings) |binding| {
if (binding) |value| {
env.release(value);
}
}
env.allocator.free(self.bindings);
}
self.bindings = &.{};
}
pub fn dump(chunk: Self, env: *script.Runtime) script.Error!*script.Object {
var opcode_cursor = @as(u32, 0);
var buffer = coral.list.ByteStack.init(env.allocator);
defer buffer.deinit();
const writer = coral.list.stack_as_writer(&buffer);
_ = coral.utf8.print_string(writer, "\n");
while (opcode_cursor < chunk.opcodes.values.len) : (opcode_cursor += 1) {
_ = coral.utf8.print_formatted(writer, "[{instruction}]: ", .{.instruction = opcode_cursor});
_ = switch (chunk.opcodes.values[opcode_cursor]) {
.ret => coral.utf8.print_string(writer, "ret\n"),
.pop => coral.utf8.print_string(writer, "pop\n"),
.push_nil => coral.utf8.print_string(writer, "push nil\n"),
.push_true => coral.utf8.print_string(writer, "push true\n"),
.push_false => coral.utf8.print_string(writer, "push false\n"),
.push_const => |push_const| print: {
const string_ref = (try (try env.push(try chunk.get_constant(env, push_const))).to_string()).pop().?;
defer env.release(string_ref);
const string = string_ref.is_string();
break: print coral.utf8.print_formatted(writer, "push const ({value})\n", .{.value = string.?});
},
.push_local => |push_local| coral.utf8.print_formatted(writer, "push local ({local})\n", .{
.local = push_local,
}),
.push_top => coral.utf8.print_string(writer, "push top\n"),
.push_table => |push_table| coral.utf8.print_formatted(writer, "push table ({count})\n", .{
.count = push_table,
}),
.push_boxed => coral.utf8.print_string(writer, "push boxed\n"),
.push_binding => |push_binding| coral.utf8.print_formatted(writer, "push binding ({binding})\n", .{
.binding = push_binding,
}),
.push_concat => |push_concat| coral.utf8.print_formatted(writer, "push concat ({count})\n", .{
.count = push_concat,
}),
.push_builtin => |push_builtin| coral.utf8.print_formatted(writer, "push builtin ({builtin})\n", .{
.builtin = switch (push_builtin) {
.import => "import",
.print => "print",
.vec2 => "vec2",
.vec3 => "vec3",
},
}),
.bind => |bind| coral.utf8.print_formatted(writer, "bind ({count})\n", .{
.count = bind,
}),
.set_local => |local_set| coral.utf8.print_formatted(writer, "set local ({local})\n", .{
.local = local_set,
}),
.get_box => coral.utf8.print_string(writer, "get box\n"),
.set_box => coral.utf8.print_string(writer, "set box\n"),
.get_dynamic => coral.utf8.print_string(writer, "get dynamic\n"),
.set_dynamic => coral.utf8.print_string(writer, "set dynamic\n"),
.call => |call| coral.utf8.print_formatted(writer, "call ({count})\n", .{.count = call}),
.not => coral.utf8.print_string(writer, "not\n"),
.neg => coral.utf8.print_string(writer, "neg\n"),
.add => coral.utf8.print_string(writer, "add\n"),
.sub => coral.utf8.print_string(writer, "sub\n"),
.mul => coral.utf8.print_string(writer, "mul\n"),
.div => coral.utf8.print_string(writer, "div\n"),
.eql => coral.utf8.print_string(writer, "eql\n"),
.cgt => coral.utf8.print_string(writer, "cgt\n"),
.clt => coral.utf8.print_string(writer, "clt\n"),
.cge => coral.utf8.print_string(writer, "cge\n"),
.cle => coral.utf8.print_string(writer, "cle\n"),
.jf => |jf| coral.utf8.print_formatted(writer, "jf ({instruction})\n", .{.instruction = jf}),
.jt => |jt| coral.utf8.print_formatted(writer, "jt ({instruction})\n", .{.instruction = jt}),
};
}
return (try env.new_string(buffer.values)).pop().?;
}
pub fn execute(self: *Self, env: *script.Runtime) script.Error!?*script.Object {
self.cursor = 0;
while (self.cursor < self.opcodes.values.len) : (self.cursor += 1) {
switch (self.opcodes.values[self.cursor]) {
.ret => break,
.pop => env.discard(),
.push_nil => _ = try env.push(null),
.push_true => _ = try env.new_boolean(true),
.push_false => _ = try env.new_boolean(false),
.push_const => |push_const| _ = try env.push(try self.get_constant(env, push_const)),
.push_local => |push_local| _ = try env.local_get(push_local),
.push_top => _ = try env.local_top(),
.push_vector2 => {
const y = try env.expect_float(try env.expect_object(env.pop()));
const x = try env.expect_float(try env.expect_object(env.pop()));
_ = try env.new_vector2(.{@floatCast(x), @floatCast(y)});
},
.push_vector3 => {
const z = try env.expect_float(try env.expect_object(env.pop()));
const y = try env.expect_float(try env.expect_object(env.pop()));
const x = try env.expect_float(try env.expect_object(env.pop()));
_ = try env.new_vector3(.{@floatCast(x), @floatCast(y), @floatCast(z)});
},
.push_table => |push_table| {
const table = (try env.new_table()).pop().?;
defer env.release(table);
var popped = @as(usize, 0);
while (popped < push_table) : (popped += 1) {
if (env.pop()) |object| {
defer env.release(object);
try env.index_set(table, object);
} else {
env.release(try env.expect_object(env.pop()));
}
}
_ = try env.push(table);
},
.push_boxed => {
const value = env.pop();
defer {
if (value) |object| {
env.release(object);
}
}
_ = try env.new_boxed(value);
},
.push_binding => |push_binding| _ = try env.push(try self.get_binding(env, push_binding)),
.push_concat => |push_concat| _ = try env.concat(push_concat),
.bind => |bind| {
const callable = try env.expect_object(env.pop());
defer env.release(callable);
const chunk = try env.expect_dynamic(callable, Self);
if (chunk.bindings.len != 0) {
return env.raise(error.IllegalState, "cannot bind values to an already-bound chunk", .{});
}
chunk.bindings = try env.allocator.alloc(?*script.Object, bind);
errdefer env.allocator.free(chunk.bindings);
for (0 .. bind) |index| {
const value = env.pop();
errdefer {
if (value) |object| {
env.release(object);
}
}
chunk.bindings[index] = value;
}
_ = try env.push(callable);
},
.set_local => |local_set| _ = try env.local_set(local_set, env.pop()),
.get_box => _ = try env.boxed_get(),
.set_box => {
const value = env.pop();
defer {
if (value) |object| {
env.release(object);
}
}
try env.boxed_set(value);
},
.get_dynamic => {
const indexable = try env.expect_object(env.pop());
defer env.release(indexable);
_ = try env.index_get(indexable);
},
.set_dynamic => {
const indexable = try env.expect_object(env.pop());
defer env.release(indexable);
const value = env.pop();
defer {
if (value) |object| {
env.release(object);
}
}
try env.index_set(indexable, value);
},
.get_external => _ = try env.index_get(self.externals),
.call => |call| _ = try env.call(call),
.not => {
const object = try env.expect_object(env.pop());
defer env.release(object);
_ = try env.new_boolean(object.is_false());
},
.neg => _ = try env.neg(),
.add => {
const addable = try env.expect_object(env.pop());
defer env.release(addable);
_ = switch (try env.expect_numeric(addable)) {
.fixed => |fixed| try env.fixed_add(fixed),
.float => |float| try env.float_add(float),
.vector2 => |vector2| try env.vector2_add(vector2),
.vector3 => |vector3| try env.vector3_add(vector3),
};
},
.sub => {
const subtractable = try env.expect_object(env.pop());
defer env.release(subtractable);
_ = switch (try env.expect_numeric(subtractable)) {
.fixed => |fixed| try env.fixed_subtract(fixed),
.float => |float| try env.float_subtract(float),
.vector2 => |vector2| try env.vector2_subtract(vector2),
.vector3 => |vector3| try env.vector3_subtract(vector3),
};
},
.mul => {
const multiplicable = try env.expect_object(env.pop());
defer env.release(multiplicable);
_ = switch (try env.expect_numeric(multiplicable)) {
.fixed => |fixed| try env.fixed_multiply(fixed),
.float => |float| try env.float_multiply(float),
.vector2 => |vector2| try env.vector2_multiply(vector2),
.vector3 => |vector3| try env.vector3_multiply(vector3),
};
},
.div => {
const divisible = try env.expect_object(env.pop());
defer env.release(divisible);
_ = switch (try env.expect_numeric(divisible)) {
.fixed => |fixed| try env.fixed_divide(fixed),
.float => |float| try env.float_divide(float),
.vector2 => |vector2| try env.vector2_divide(vector2),
.vector3 => |vector3| try env.vector3_divide(vector3),
};
},
.eql => {
if (env.pop()) |equatable| {
defer env.release(equatable);
_ = try env.equals_object(equatable);
} else {
_ = try env.equals_nil();
}
},
.cgt => {
const comparable = try env.expect_object(env.pop());
defer env.release(comparable);
_ = try env.compare_greater(comparable);
},
.clt => {
const comparable = try env.expect_object(env.pop());
defer env.release(comparable);
_ = try env.compare_less(comparable);
},
.cge => {
const comparable = try env.expect_object(env.pop());
defer env.release(comparable);
_ = try env.compare_greater_equals(comparable);
},
.cle => {
const comparable = try env.expect_object(env.pop());
defer env.release(comparable);
_ = try env.compare_less_equals(comparable);
},
.jf => |jf| {
if (env.pop()) |condition| {
defer env.release(condition);
if (condition.is_false()) {
self.cursor = jf;
}
} else {
self.cursor = jf;
}
},
.jt => |jt| {
if (env.pop()) |condition| {
defer env.release(condition);
if (condition.is_true()) {
self.cursor = jt;
}
}
},
}
}
return env.pop();
}
fn get_binding(self: *Self, env: *script.Runtime, index: usize) script.Error!?*script.Object {
if (index >= self.bindings.len) {
return env.raise(error.IllegalState, "invalid binding", .{});
}
return self.bindings[index];
}
fn get_constant(self: *const Self, env: *script.Runtime, index: usize) script.Error!*script.Object {
if (index >= self.constants.values.len) {
return env.raise(error.IllegalState, "invalid constant", .{});
}
return self.constants.values[index];
}
pub fn init(env: *script.Runtime, name: []const u8, environment: *const tree.Environment, externals: []const External) script.Error!Self {
const name_symbol = (try env.new_symbol(name)).pop().?;
errdefer env.release(name_symbol);
const externals_table = (try env.new_table()).pop().?;
errdefer env.release(externals_table);
for (0 .. externals.len) |i| {
const external_name, const external_object = externals[i];
try (try env.new_symbol(external_name)).index_set(externals_table, external_object);
}
var chunk = Self{
.externals = externals_table,
.name = name_symbol,
.opcodes = .{.allocator = env.allocator},
.constants = .{.allocator = env.allocator},
.lines = .{.allocator = env.allocator},
.bindings = &.{},
.arity = environment.argument_count,
.cursor = 0,
};
var compiler = Compiler{
.chunk = &chunk,
.env = env,
};
try compiler.compile_environment(environment);
return chunk;
}
pub const typeinfo = script.Typeinfo{
.name = "lambda",
.destruct = typeinfo_destruct,
.call = typeinfo_call,
.to_string = typeinfo_to_string,
};
fn typeinfo_call(context: script.Typeinfo.CallContext) script.Error!?*script.Object {
return @as(*Self, @ptrCast(@alignCast(context.userdata))).execute(context.env);
}
fn typeinfo_destruct(context: script.Typeinfo.DestructContext) void {
@as(*Self, @ptrCast(@alignCast(context.userdata))).deinit(context.env);
}
fn typeinfo_to_string(context: script.Typeinfo.ToStringContext) script.Error!*script.Object {
return (try (try context.env.push(@as(*Self, @ptrCast(@alignCast(context.userdata))).name)).to_string()).pop().?;
}
pub fn write(self: *Self, line: tokens.Line, opcode: Opcode) std.mem.Allocator.Error!void {
try self.opcodes.push(opcode);
try self.lines.push(line);
}

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@ -1,135 +0,0 @@
const coral = @import("coral");
const script = @import("../script.zig");
associative: coral.map.Table(*script.Object, *script.Object, struct {
pub const hash = script.Object.hash;
pub const equals = script.Object.equals;
}),
contiguous: coral.Stack(?*script.Object),
const Self = @This();
pub fn deinit(self: *Self, env: *script.Runtime) void {
{
var entries = self.associative.entries();
while (entries.next()) |entry| {
env.release(entry.key);
env.release(entry.value);
}
}
self.associative.deinit();
while (self.contiguous.pop()) |value| {
if (value.*) |ref| {
env.release(ref);
}
}
self.contiguous.deinit();
}
pub fn init(env: *script.Runtime) Self {
return .{
.associative = .{
.allocator = env.allocator,
.traits = .{},
},
.contiguous = .{.allocator = env.allocator},
};
}
pub const typeinfo = script.Typeinfo{
.name = "table",
.destruct = typeinfo_destruct,
.get = typeinfo_get,
.set = typeinfo_set,
.count = typeinfo_count,
};
fn typeinfo_count(context: script.Typeinfo.CountContext) script.Error!script.Fixed {
const table = @as(*Self, @ptrCast(@alignCast(context.userdata)));
return @intCast(table.associative.len + table.contiguous.values.len);
}
fn typeinfo_destruct(context: script.Typeinfo.DestructContext) void {
@as(*Self, @ptrCast(@alignCast(context.userdata))).deinit(context.env);
}
fn typeinfo_get(context: script.Typeinfo.GetContext) script.Error!?*script.Object {
const table = @as(*Self, @ptrCast(@alignCast(context.userdata)));
const index = (try context.push_index()).pop().?;
defer context.env.release(index);
if (index.is_fixed()) |fixed| {
if (fixed < 0) {
// TODO: Negative indexing.
unreachable;
}
if (fixed < table.contiguous.values.len) {
return table.contiguous.values[@intCast(fixed)];
}
}
if (table.associative.lookup(index)) |value| {
return value;
}
return null;
}
fn typeinfo_set(context: script.Typeinfo.SetContext) script.Error!void {
const table = @as(*Self, @ptrCast(@alignCast(context.userdata)));
const index = (try context.push_index()).pop().?;
errdefer context.env.release(index);
if (index.is_fixed()) |fixed| {
if (fixed < 0) {
// TODO: Negative indexing.
unreachable;
}
if (fixed < table.contiguous.values.len) {
const maybe_replacing = &table.contiguous.values[@intCast(fixed)];
if (maybe_replacing.*) |replacing| {
context.env.release(replacing);
}
if ((try context.push_value()).pop()) |value| {
errdefer context.env.release(value);
maybe_replacing.* = value;
} else {
maybe_replacing.* = null;
}
return;
}
}
const value = (try context.push_value()).pop() orelse {
if (table.associative.remove(index)) |removed| {
context.env.release(removed.key);
context.env.release(removed.value);
}
return;
};
errdefer context.env.release(value);
if (try table.associative.replace(index, value)) |replaced| {
context.env.release(replaced.key);
context.env.release(replaced.value);
}
}

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@ -1,535 +0,0 @@
const coral = @import("coral");
const std = @import("std");
pub const Line = struct {
number: u32,
};
pub const Token = union(enum) {
end,
unknown: u8,
newline,
identifier: []const u8,
builtin: []const u8,
symbol_plus,
symbol_minus,
symbol_asterisk,
symbol_forward_slash,
symbol_paren_left,
symbol_paren_right,
symbol_bang,
symbol_comma,
symbol_at,
symbol_brace_left,
symbol_brace_right,
symbol_bracket_left,
symbol_bracket_right,
symbol_period,
symbol_colon,
symbol_less_than,
symbol_less_equals,
symbol_greater_than,
symbol_greater_equals,
symbol_equals,
symbol_double_equals,
number: []const u8,
string: []const u8,
template_string: []const u8,
keyword_nil,
keyword_false,
keyword_true,
keyword_return,
keyword_self,
keyword_const,
keyword_if,
keyword_do,
keyword_end,
keyword_while,
keyword_else,
keyword_elif,
keyword_var,
keyword_vec2,
keyword_vec3,
keyword_let,
keyword_lambda,
pub fn text(self: Token) []const u8 {
return switch (self) {
.end => "end",
.unknown => |unknown| @as([*]const u8, @ptrCast(&unknown))[0 .. 1],
.newline => "newline",
.identifier => |identifier| identifier,
.builtin => |identifier| identifier,
.symbol_plus => "+",
.symbol_minus => "-",
.symbol_asterisk => "*",
.symbol_forward_slash => "/",
.symbol_paren_left => "(",
.symbol_paren_right => ")",
.symbol_bang => "!",
.symbol_comma => ",",
.symbol_at => "@",
.symbol_brace_left => "{",
.symbol_brace_right => "}",
.symbol_bracket_left => "[",
.symbol_bracket_right => "]",
.symbol_period => ".",
.symbol_colon => ":",
.symbol_less_than => "<",
.symbol_less_equals => "<=",
.symbol_greater_than => ">",
.symbol_greater_equals => ">=",
.symbol_equals => "=",
.symbol_double_equals => "==",
.number => |literal| literal,
.string => |literal| literal,
.template_string => |literal| literal,
.keyword_const => "const",
.keyword_nil => "nil",
.keyword_false => "false",
.keyword_true => "true",
.keyword_return => "return",
.keyword_self => "self",
.keyword_if => "if",
.keyword_do => "do",
.keyword_end => "end",
.keyword_while => "while",
.keyword_elif => "elif",
.keyword_else => "else",
.keyword_var => "var",
.keyword_vec2 => "vec2",
.keyword_vec3 => "vec3",
.keyword_let => "let",
.keyword_lambda => "lambda",
};
}
};
pub const Stream = struct {
source: []const u8,
line: Line = .{.number = 1},
token: Token = .newline,
pub fn skip_newlines(self: *Stream) void {
self.step();
while (self.token == .newline) {
self.step();
}
}
pub fn step(self: *Stream) void {
var cursor = @as(usize, 0);
defer self.source = self.source[cursor ..];
while (cursor < self.source.len) {
switch (self.source[cursor]) {
'#' => {
cursor += 1;
while (cursor < self.source.len and self.source[cursor] != '\n') {
cursor += 1;
}
},
' ', '\t' => cursor += 1,
'\n' => {
cursor += 1;
self.token = .newline;
self.line.number += 1;
return;
},
'0' ... '9' => {
const begin = cursor;
cursor += 1;
while (cursor < self.source.len) switch (self.source[cursor]) {
'0' ... '9' => cursor += 1,
'.' => {
cursor += 1;
while (cursor < self.source.len) switch (self.source[cursor]) {
'0' ... '9' => cursor += 1,
else => break,
};
self.token = .{.number = self.source[begin .. cursor]};
return;
},
else => break,
};
self.token = .{.number = self.source[begin .. cursor]};
return;
},
'A' ... 'Z', 'a' ... 'z', '_' => {
const begin = cursor;
cursor += 1;
while (cursor < self.source.len) switch (self.source[cursor]) {
'0'...'9', 'A'...'Z', 'a'...'z', '_' => cursor += 1,
else => break,
};
const identifier = self.source[begin .. cursor];
std.debug.assert(identifier.len != 0);
switch (identifier[0]) {
'c' => {
if (coral.are_equal(identifier[1 ..], "onst")) {
self.token = .keyword_const;
return;
}
},
'd' => {
if (coral.are_equal(identifier[1 ..], "o")) {
self.token = .keyword_do;
return;
}
},
'e' => {
if (coral.are_equal(identifier[1 ..], "lse")) {
self.token = .keyword_else;
return;
}
if (coral.are_equal(identifier[1 ..], "lif")) {
self.token = .keyword_elif;
return;
}
if (coral.are_equal(identifier[1 ..], "nd")) {
self.token = .keyword_end;
return;
}
},
'f' => {
if (coral.are_equal(identifier[1 ..], "alse")) {
self.token = .keyword_false;
return;
}
},
'i' => {
if (coral.are_equal(identifier[1 ..], "f")) {
self.token = .keyword_if;
return;
}
},
'l' => {
if (coral.are_equal(identifier[1 ..], "ambda")) {
self.token = .keyword_lambda;
return;
}
if (coral.are_equal(identifier[1 ..], "et")) {
self.token = .keyword_let;
return;
}
},
'n' => {
if (coral.are_equal(identifier[1 ..], "il")) {
self.token = .keyword_nil;
return;
}
},
'r' => {
if (coral.are_equal(identifier[1 ..], "eturn")) {
self.token = .keyword_return;
return;
}
},
's' => {
if (coral.are_equal(identifier[1 ..], "elf")) {
self.token = .keyword_self;
return;
}
},
't' => {
if (coral.are_equal(identifier[1 ..], "rue")) {
self.token = .keyword_true;
return;
}
},
'v' => {
const rest = identifier[1 ..];
if (coral.are_equal(rest, "ar")) {
self.token = .keyword_var;
return;
}
if (coral.are_equal(rest, "vec2")) {
self.token = .keyword_vec2;
return;
}
if (coral.are_equal(rest, "vec3")) {
self.token = .keyword_vec3;
return;
}
},
'w' => {
if (coral.are_equal(identifier[1 ..], "hile")) {
self.token = .keyword_while;
return;
}
},
else => {},
}
self.token = .{.identifier = identifier};
return;
},
'`' => {
cursor += 1;
const begin = cursor;
while (cursor < self.source.len) switch (self.source[cursor]) {
'`' => break,
else => cursor += 1,
};
self.token = .{.template_string = self.source[begin .. cursor]};
cursor += 1;
return;
},
'"' => {
cursor += 1;
const begin = cursor;
while (cursor < self.source.len) switch (self.source[cursor]) {
'"' => break,
else => cursor += 1,
};
self.token = .{.string = self.source[begin .. cursor]};
cursor += 1;
return;
},
'{' => {
self.token = .symbol_brace_left;
cursor += 1;
return;
},
'}' => {
self.token = .symbol_brace_right;
cursor += 1;
return;
},
'[' => {
self.token = .symbol_bracket_left;
cursor += 1;
return;
},
']' => {
self.token = .symbol_bracket_right;
cursor += 1;
return;
},
',' => {
self.token = .symbol_comma;
cursor += 1;
return;
},
'!' => {
self.token = .symbol_bang;
cursor += 1;
return;
},
')' => {
self.token = .symbol_paren_right;
cursor += 1;
return;
},
'(' => {
self.token = .symbol_paren_left;
cursor += 1;
return;
},
'/' => {
self.token = .symbol_forward_slash;
cursor += 1;
return;
},
'*' => {
self.token = .symbol_asterisk;
cursor += 1;
return;
},
'-' => {
self.token = .symbol_minus;
cursor += 1;
return;
},
'+' => {
self.token = .symbol_plus;
cursor += 1;
return;
},
':' => {
self.token = .symbol_colon;
cursor += 1;
return;
},
'=' => {
cursor += 1;
if (cursor < self.source.len) {
switch (self.source[cursor]) {
'=' => {
cursor += 1;
self.token = .symbol_double_equals;
return;
},
else => {},
}
}
self.token = .symbol_equals;
return;
},
'<' => {
cursor += 1;
if (cursor < self.source.len and (self.source[cursor] == '=')) {
cursor += 1;
self.token = .symbol_less_equals;
return;
}
self.token = .symbol_less_than;
return;
},
'>' => {
cursor += 1;
if (cursor < self.source.len and (self.source[cursor] == '=')) {
cursor += 1;
self.token = .symbol_greater_equals;
return;
}
self.token = .symbol_greater_than;
return;
},
'.' => {
self.token = .symbol_period;
cursor += 1;
return;
},
'@' => {
self.token = .symbol_at;
cursor += 1;
return;
},
else => {
self.token = .{.unknown = self.source[cursor]};
cursor += 1;
return;
},
}
}
self.token = .end;
return;
}
};

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@ -1,268 +0,0 @@
pub const Expr = @import("./tree/Expr.zig");
pub const Stmt = @import("./tree/Stmt.zig");
const coral = @import("coral");
const std = @import("std");
const script = @import("../script.zig");
const tokens = @import("./tokens.zig");
pub const Declaration = struct {
identifier: []const coral.Byte,
is: packed struct {
readonly: bool = false,
captured: bool = false,
} = .{},
};
pub const Environment = struct {
captures: [capture_max]Capture = [_]Capture{.{.declaration_index = 0}} ** capture_max,
capture_count: u8 = 0,
declarations: [declaration_max]Declaration = [_]Declaration{.{.identifier = ""}} ** declaration_max,
declaration_count: u8 = 0,
argument_count: u8 = 0,
statement: ?*const Stmt = null,
enclosing: ?*Environment = null,
pub const Capture = union (enum) {
declaration_index: u8,
capture_index: u8,
};
pub const DeclareError = std.mem.Allocator.Error || error {
DeclarationExists,
};
const capture_max = std.math.maxInt(u8);
const declaration_max = std.math.maxInt(u8);
pub fn create_enclosed(self: *Environment, root: *Root) std.mem.Allocator.Error!*Environment {
const environment = try root.arena.allocator().create(Environment);
environment.* = .{.enclosing = self};
return environment;
}
fn declare(self: *Environment, declaration: Declaration) DeclareError!*const Declaration {
if (self.declaration_count == self.declarations.len) {
return error.OutOfMemory;
}
{
var environment = self;
while (true) {
var remaining_count = environment.declaration_count;
while (remaining_count != 0) {
remaining_count -= 1;
if (coral.are_equal(environment.declarations[remaining_count].identifier, declaration.identifier)) {
return error.DeclarationExists;
}
}
environment = environment.enclosing orelse break;
}
}
const declaration_slot = &self.declarations[self.declaration_count];
declaration_slot.* = declaration;
self.declaration_count += 1;
return declaration_slot;
}
pub fn declare_argument(self: *Environment, identifier: []const u8) DeclareError!*const Declaration {
std.debug.assert(self.declaration_count <= self.argument_count);
defer self.argument_count += 1;
return self.declare(.{
.identifier = identifier,
.is = .{.readonly = true},
});
}
pub fn declare_constant(self: *Environment, identifier: []const u8) DeclareError!*const Declaration {
return self.declare(.{
.identifier = identifier,
.is = .{.readonly = true},
});
}
pub fn declare_variable(self: *Environment, identifier: []const u8) DeclareError!*const Declaration {
return self.declare(.{.identifier = identifier});
}
pub fn resolve_declaration(self: *Environment, identifier: []const u8) std.mem.Allocator.Error!?*const Declaration {
var environment = self;
var ancestry = @as(u32, 0);
while (true) : (ancestry += 1) {
var remaining_count = environment.declaration_count;
while (remaining_count != 0) {
remaining_count -= 1;
const declaration = &environment.declarations[remaining_count];
if (coral.are_equal(declaration.identifier, identifier)) {
if (ancestry != 0) {
declaration.is.captured = true;
environment = self;
ancestry -= 1;
while (ancestry != 0) : (ancestry -= 1) {
if (environment.capture_count == environment.captures.len) {
return error.OutOfMemory;
}
environment.captures[environment.capture_count] = .{
.capture_index = environment.enclosing.?.capture_count
};
environment.capture_count += 1;
environment = environment.enclosing.?;
}
environment.captures[environment.capture_count] = .{.declaration_index = remaining_count};
environment.capture_count += 1;
}
return declaration;
}
}
environment = environment.enclosing orelse return null;
}
}
pub fn get_captures(self: *const Environment) []const Capture {
return self.captures[0 .. self.capture_count];
}
pub fn get_declarations(self: *const Environment) []const Declaration {
return self.declarations[0 .. self.declaration_count];
}
};
pub fn NodeChain(comptime Value: type) type {
return struct {
head: ?*Value = null,
tail: ?*Value = null,
pub const Nodes = struct {
current: ?*const Value,
pub fn next(self: *Nodes) ?*const Value {
const current = self.current orelse return null;
defer self.current = current.next;
return current;
}
};
const Self = @This();
pub fn append(self: *Self, value: *Value) void {
if (self.tail) |node| {
node.next = value;
self.tail = value;
} else {
self.tail = value;
self.head = value;
}
}
pub fn nodes(self: *const Self) Nodes {
return .{.current = self.head};
}
};
}
pub const ParseError = std.mem.Allocator.Error || error {
BadSyntax,
};
pub const Root = struct {
arena: std.heap.ArenaAllocator,
environment: Environment,
error_messages: MessageList,
const MessageList = coral.Stack([]coral.Byte);
pub fn report_error(self: *Root, line: tokens.Line, comptime format: []const u8, args: anytype) ParseError {
const allocator = self.arena.allocator();
const message = try coral.utf8.alloc_formatted(allocator, format, args);
defer allocator.free(message);
try self.error_messages.push(try coral.utf8.alloc_formatted(allocator, "{line_number}: {message}", .{
.message = message,
.line_number = line.number,
}));
return error.BadSyntax;
}
pub fn report_declare_error(self: *Root, line: tokens.Line, identifier: []const u8, @"error": Environment.DeclareError) ParseError {
return switch (@"error") {
error.OutOfMemory => error.OutOfMemory,
error.DeclarationExists => self.report_error(line, "declaration `{identifier}` already exists", .{
.identifier = identifier,
}),
};
}
pub fn create_node(self: *Root, node: anytype) std.mem.Allocator.Error!*@TypeOf(node) {
const copy = try self.arena.allocator().create(@TypeOf(node));
copy.* = node;
return copy;
}
pub fn create_string(self: *Root, comptime format: []const u8, args: anytype) std.mem.Allocator.Error![]const u8 {
return coral.utf8.alloc_formatted(self.arena.allocator(), format, args);
}
pub fn deinit(self: *Root) void {
self.error_messages.deinit();
self.arena.deinit();
}
pub fn init(allocator: std.mem.Allocator) std.mem.Allocator.Error!Root {
return .{
.arena = std.heap.ArenaAllocator.init(allocator),
.error_messages = .{.allocator = allocator},
.environment = .{},
};
}
pub fn parse(self: *Root, stream: *tokens.Stream) ParseError!void {
stream.skip_newlines();
const first_statement = try Stmt.parse(self, stream, &self.environment);
var current_statement = first_statement;
while (stream.token != .end) {
const next_statement = try Stmt.parse(self, stream, &self.environment);
current_statement.next = next_statement;
current_statement = next_statement;
}
self.environment.statement = first_statement;
}
};

View File

@ -1,906 +0,0 @@
const Stmt = @import("./Stmt.zig");
const coral = @import("coral");
const tokens = @import("../tokens.zig");
const tree = @import("../tree.zig");
const std = @import("std");
next: ?*const Self = null,
line: tokens.Line,
kind: Kind,
pub const BinaryOp = struct {
rhs_operand: *Self,
lhs_operand: *Self,
operation: Operation,
pub const Operation = enum {
addition,
subtraction,
multiplication,
divsion,
equals_comparison,
greater_than_comparison,
greater_equals_comparison,
less_than_comparison,
less_equals_comparison,
};
fn parser(comptime parse_next: Parser, comptime operations: []const BinaryOp.Operation) Parser {
const BinaryOpParser = struct {
fn parse(root: *tree.Root, stream: *tokens.Stream, environment: *tree.Environment) tree.ParseError!*Self {
var expression = try parse_next(root, stream, environment);
inline for (operations) |operation| {
const token = comptime @as(tokens.Token, switch (operation) {
.addition => .symbol_plus,
.subtraction => .symbol_minus,
.multiplication => .symbol_asterisk,
.divsion => .symbol_forward_slash,
.equals_comparison => .symbol_double_equals,
.greater_than_comparison => .symbol_greater_than,
.greater_equals_comparison => .symbol_greater_equals,
.less_than_comparison => .symbol_less_than,
.less_equals_comparison => .symbol_less_equals,
});
if (stream.token == std.meta.activeTag(token)) {
stream.step();
if (stream.token == .end) {
return root.report_error(stream.line, "expected other half of expression after `" ++ comptime token.text() ++ "`", .{});
}
// TODO: Remove once Zig has fixed struct self-reassignment.
const unnecessary_temp = expression;
expression = try root.create_node(Self{
.line = stream.line,
.kind = .{
.binary_op = .{
.rhs_operand = try parse_next(root, stream, environment),
.operation = operation,
.lhs_operand = unnecessary_temp,
},
},
});
}
}
return expression;
}
};
return BinaryOpParser.parse;
}
};
pub const DeclarationGet = struct {
declaration: *const tree.Declaration,
};
pub const DeclarationSet = struct {
declaration: *const tree.Declaration,
assign: *const Self,
};
pub const FieldGet = struct {
identifier: []const coral.Byte,
object: *const Self,
};
pub const FieldSet = struct {
identifier: []const coral.Byte,
object: *const Self,
assign: *const Self,
};
pub const Invoke = struct {
argument: ?*const Self,
object: *const Self,
};
const Kind = union (enum) {
nil_literal,
true_literal,
false_literal,
number_literal: []const u8,
string_literal: []const u8,
string_template,
symbol_literal: []const u8,
vector2: Vector2,
vector3: Vector3,
table: tree.NodeChain(TableEntry),
group: *Self,
lambda_construct: LambdaConstruct,
declaration_get: DeclarationGet,
declaration_set: DeclarationSet,
field_get: FieldGet,
field_set: FieldSet,
external_get: ExternalGet,
subscript_get: SubscriptGet,
subscript_set: SubscriptSet,
binary_op: BinaryOp,
unary_op: UnaryOp,
invoke: Invoke,
};
pub const LambdaConstruct = struct {
environment: *const tree.Environment,
};
const Parser = fn (root: *tree.Root, stream: *tokens.Stream, environment: *tree.Environment) tree.ParseError!*Self;
const ExternalGet = struct {
name: []const u8,
};
const Self = @This();
pub const SubscriptGet = struct {
index: *const Self,
object: *const Self,
};
pub const SubscriptSet = struct {
index: *const Self,
object: *const Self,
assign: *const Self,
};
pub const TableEntry = struct {
next: ?*const TableEntry = null,
key: *const Self,
value: *const Self,
};
const TemplateToken = union (enum) {
invalid: []const coral.Byte,
literal: []const coral.Byte,
expression: []const coral.Byte,
fn extract(source: *[]const coral.Byte) ?TemplateToken {
var cursor = @as(usize, 0);
defer source.* = source.*[cursor ..];
while (cursor < source.len) {
switch (source.*[cursor]) {
'{' => {
cursor += 1;
while (true) : (cursor += 1) {
if (cursor == source.len) {
return .{.invalid = source.*[0 .. cursor]};
}
if (source.*[cursor] == '}') {
const token = TemplateToken{.expression = source.*[1 .. cursor]};
cursor += 1;
return token;
}
}
},
else => {
cursor += 1;
while (true) : (cursor += 1) {
if (cursor == source.len) {
return .{.literal = source.*[0 .. cursor]};
}
if (source.*[cursor] == '{') {
const cursor_next = cursor + 1;
if (cursor_next == source.len) {
return .{.invalid = source.*[0 .. cursor]};
}
if (source.*[cursor_next] == '{') {
cursor = cursor_next;
return .{.literal = source.*[0 .. cursor]};
}
return .{.literal = source.*[0 .. cursor]};
}
}
}
}
}
return null;
}
};
pub const UnaryOp = struct {
operand: *Self,
operation: Operation,
pub const Operation = enum {
numeric_negation,
boolean_negation,
};
};
pub const Vector2 = struct {
x: *const Self,
y: *const Self,
};
pub const Vector3 = struct {
x: *const Self,
y: *const Self,
z: *const Self,
};
pub fn parse(root: *tree.Root, stream: *tokens.Stream, environment: *tree.Environment) tree.ParseError!*Self {
const expression = try parse_additive(root, stream, environment);
if (stream.token == .symbol_equals) {
stream.skip_newlines();
if (stream.token == .end) {
return root.report_error(stream.line, "expected assignment after `=`", .{});
}
return root.create_node(Self{
.line = stream.line,
.kind = switch (expression.kind) {
.declaration_get => |declaration_get| convert: {
if (declaration_get.declaration.is.readonly) {
return root.report_error(stream.line, "readonly declarations cannot be re-assigned", .{});
}
break: convert .{
.declaration_set = .{
.assign = try parse(root, stream, environment),
.declaration = declaration_get.declaration,
},
};
},
.field_get => |field_get| .{
.field_set = .{
.assign = try parse(root, stream, environment),
.object = field_get.object,
.identifier = field_get.identifier,
},
},
.subscript_get => |subscript_get| .{
.subscript_set = .{
.assign = try parse(root, stream, environment),
.object = subscript_get.object,
.index = subscript_get.index,
},
},
else => return root.report_error(stream.line, "expected local or field on left-hand side of expression", .{}),
},
});
}
return expression;
}
const parse_additive = BinaryOp.parser(parse_equality, &.{
.addition,
.subtraction,
});
const parse_comparison = BinaryOp.parser(parse_term, &.{
.greater_than_comparison,
.greater_equals_comparison,
.less_than_comparison,
.less_equals_comparison
});
const parse_equality = BinaryOp.parser(parse_comparison, &.{
.equals_comparison,
});
fn parse_factor(root: *tree.Root, stream: *tokens.Stream, environment: *tree.Environment) tree.ParseError!*Self {
var expression = try parse_operand(root, stream, environment);
while (true) {
switch (stream.token) {
.symbol_period => {
stream.skip_newlines();
// TODO: Remove when Zig fixes miscompilation with in-place struct re-assignment.
const unnecessary_temp = expression;
expression = try root.create_node(Self{
.line = stream.line,
.kind = .{
.field_get = .{
.identifier = switch (stream.token) {
.identifier => |field_identifier| field_identifier,
else => return root.report_error(stream.line, "expected identifier after `.`", .{}),
},
.object = unnecessary_temp,
},
},
});
stream.skip_newlines();
},
.symbol_bracket_left => {
stream.skip_newlines();
// TODO: Remove when Zig fixes miscompilation with in-place struct re-assignment.
const unnecessary_temp = expression;
expression = try root.create_node(Self{
.line = stream.line,
.kind = .{
.subscript_get = .{
.index = try parse(root, stream, environment),
.object = unnecessary_temp,
},
},
});
if (stream.token != .symbol_bracket_right) {
return root.report_error(stream.line, "expected closing `]` on subscript", .{});
}
stream.skip_newlines();
},
.symbol_paren_left => {
const lines_stepped = stream.line;
stream.skip_newlines();
var first_argument = @as(?*Self, null);
if (stream.token != .symbol_paren_right) {
var argument = try parse(root, stream, environment);
first_argument = argument;
while (true) {
switch (stream.token) {
.symbol_comma => stream.skip_newlines(),
.symbol_paren_right => break,
else => return root.report_error(stream.line, "expected `,` or `)` after lambda argument", .{}),
}
const next_argument = try parse(root, stream, environment);
argument.next = next_argument;
argument = next_argument;
}
}
stream.skip_newlines();
// TODO: Remove when Zig fixes miscompilation with in-place struct re-assignment.
const unnecessary_temp = expression;
expression = try root.create_node(Self{
.line = lines_stepped,
.kind = .{
.invoke = .{
.argument = first_argument,
.object = unnecessary_temp,
},
},
});
},
else => break,
}
}
return expression;
}
fn parse_operand(root: *tree.Root, stream: *tokens.Stream, environment: *tree.Environment) tree.ParseError!*Self {
switch (stream.token) {
.symbol_paren_left => {
stream.skip_newlines();
const expression = try parse(root, stream, environment);
if (stream.token != .symbol_paren_right) {
return root.report_error(stream.line, "expected a closing `)` after expression", .{});
}
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{.group = expression},
});
},
.keyword_nil => {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .nil_literal,
});
},
.keyword_true => {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .true_literal,
});
},
.keyword_false => {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .false_literal,
});
},
.keyword_vec2 => {
stream.skip_newlines();
if (stream.token != .symbol_paren_left) {
return root.report_error(stream.line, "expected an opening `(` after `vec2`", .{});
}
stream.skip_newlines();
const x_expression = try parse(root, stream, environment);
switch (stream.token) {
.symbol_paren_right => {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{
.vector2 = .{
.x = x_expression,
.y = x_expression,
},
},
});
},
.symbol_comma => {
stream.skip_newlines();
const y_expression = try parse(root, stream, environment);
stream.skip_newlines();
if (stream.token != .symbol_paren_right) {
return root.report_error(stream.line, "expected a closing `)` after `vec3`", .{});
}
return root.create_node(Self{
.line = stream.line,
.kind = .{
.vector2 = .{
.x = x_expression,
.y = y_expression,
},
},
});
},
else => return root.report_error(stream.line, "expected a closing `)` after `vec3`", .{}),
}
},
.keyword_vec3 => {
stream.skip_newlines();
if (stream.token != .symbol_paren_left) {
return root.report_error(stream.line, "expected an opening `(` after `vec2`", .{});
}
stream.skip_newlines();
const x_expression = try parse(root, stream, environment);
switch (stream.token) {
.symbol_paren_right => {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{
.vector3 = .{
.x = x_expression,
.y = x_expression,
.z = x_expression,
},
},
});
},
.symbol_comma => {
stream.skip_newlines();
const y_expression = try parse(root, stream, environment);
stream.skip_newlines();
const z_expression = try parse(root, stream, environment);
stream.skip_newlines();
if (stream.token != .symbol_paren_right) {
return root.report_error(stream.line, "expected a closing `)` after `vec3`", .{});
}
return root.create_node(Self{
.line = stream.line,
.kind = .{
.vector3 = .{
.x = x_expression,
.y = y_expression,
.z = z_expression,
},
},
});
},
else => return root.report_error(stream.line, "expected a closing `)` after `vec3`", .{}),
}
},
.number => |value| {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{.number_literal = value},
});
},
.string => |value| {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{.string_literal = value},
});
},
.template_string => |value| {
const line = stream.line;
stream.skip_newlines();
return parse_template(root, value, line, environment);
},
.symbol_at => {
stream.step();
const identifier = switch (stream.token) {
.identifier => |identifier| identifier,
else => return root.report_error(stream.line, "expected identifier after `@`", .{}),
};
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{.external_get = .{.name = identifier}},
});
},
.symbol_period => {
stream.step();
const identifier = switch (stream.token) {
.identifier => |identifier| identifier,
else => return root.report_error(stream.line, "expected identifier after `.`", .{}),
};
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{.symbol_literal = identifier},
});
},
.identifier => |identifier| {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{
.declaration_get = .{
.declaration = (try environment.resolve_declaration(identifier)) orelse {
return root.report_error(stream.line, "undefined identifier `{identifier}`", .{
.identifier = identifier,
});
}
},
},
});
},
.keyword_lambda => {
stream.skip_newlines();
if (stream.token != .symbol_paren_left) {
return root.report_error(stream.line, "expected `(` after opening lambda block", .{});
}
stream.skip_newlines();
var lambda_environment = try environment.create_enclosed(root);
while (stream.token != .symbol_paren_right) {
const identifier = switch (stream.token) {
.identifier => |identifier| identifier,
else => return root.report_error(stream.line, "expected identifier", .{}),
};
_ = lambda_environment.declare_argument(identifier) catch |declare_error| {
return root.report_declare_error(stream.line, identifier, declare_error);
};
stream.skip_newlines();
switch (stream.token) {
.symbol_comma => stream.skip_newlines(),
.symbol_paren_right => break,
else => return root.report_error(stream.line, "expected `,` or `)` after identifier", .{}),
}
}
stream.skip_newlines();
if (stream.token != .symbol_colon) {
return root.report_error(stream.line, "expected `:` after closing `)` of lambda identifiers", .{});
}
stream.skip_newlines();
if (stream.token != .keyword_end) {
const first_statement = try Stmt.parse(root, stream, lambda_environment);
var current_statement = first_statement;
while (stream.token != .keyword_end) {
const next_statement = try Stmt.parse(root, stream, lambda_environment);
current_statement.next = next_statement;
current_statement = next_statement;
}
lambda_environment.statement = first_statement;
}
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{.lambda_construct = .{.environment = lambda_environment}},
});
},
.symbol_brace_left => {
stream.skip_newlines();
return parse_table(root, stream, environment);
},
.symbol_minus => {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{
.unary_op = .{
.operand = try parse_factor(root, stream, environment),
.operation = .numeric_negation,
},
},
});
},
.symbol_bang => {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{
.unary_op = .{
.operand = try parse_factor(root, stream, environment),
.operation = .boolean_negation,
},
},
});
},
else => return root.report_error(stream.line, "unexpected token in expression", .{}),
}
}
fn parse_table(root: *tree.Root, stream: *tokens.Stream, environment: *tree.Environment) tree.ParseError!*Self {
var entries = tree.NodeChain(TableEntry){};
var sequential_index = @as(usize, 0);
while (true) {
switch (stream.token) {
.symbol_brace_right => {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{.table = entries},
});
},
.symbol_bracket_left => {
stream.skip_newlines();
const key = try parse(root, stream, environment);
if (stream.token != .symbol_bracket_right) {
return root.report_error(stream.line, "expected `]` after subscript index expression", .{});
}
stream.skip_newlines();
if (stream.token != .symbol_equals) {
return root.report_error(stream.line, "expected `=` after table expression key", .{});
}
stream.skip_newlines();
entries.append(try root.create_node(TableEntry{
.value = try parse(root, stream, environment),
.key = key,
}));
},
.symbol_period => {
stream.step();
const field = switch (stream.token) {
.identifier => |identifier| identifier,
else => return root.report_error(stream.line, "invalid symbol literal", .{}),
};
stream.skip_newlines();
switch (stream.token) {
.symbol_comma => {
stream.skip_newlines();
entries.append(try root.create_node(TableEntry{
.key = try root.create_node(Self{
.line = stream.line,
.kind = .{.number_literal = try root.create_string("{i}", .{.i = sequential_index})},
}),
.value = try root.create_node(Self{
.line = stream.line,
.kind = .{.symbol_literal = field},
}),
}));
sequential_index += 1;
},
.symbol_equals => {
stream.skip_newlines();
entries.append(try root.create_node(TableEntry{
.value = try parse(root, stream, environment),
.key = try root.create_node(Self{
.line = stream.line,
.kind = .{.symbol_literal = field},
}),
}));
},
else => return root.report_error(stream.line, "expected `,` or `=` after symbol", .{}),
}
},
else => {
entries.append(try root.create_node(TableEntry{
.value = try parse(root, stream, environment),
.key = try root.create_node(Self{
.line = stream.line,
.kind = .{.number_literal = try root.create_string("{i}", .{.i = sequential_index})},
}),
}));
sequential_index += 1;
},
}
switch (stream.token) {
.symbol_brace_right => {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{.table = entries},
});
},
.symbol_comma => stream.skip_newlines(),
else => return root.report_error(stream.line, "expected `,` or '}' after table key value pair", .{}),
}
}
}
fn parse_template(root: *tree.Root, template: []const coral.Byte, line: tokens.Line, environment: *tree.Environment) tree.ParseError!*Self {
const expression_head = try root.create_node(Self{
.line = line,
.kind = .string_template,
});
var expression_tail = expression_head;
var source = template;
while (TemplateToken.extract(&source)) |token| {
const expression = try switch (token) {
.invalid => |invalid| root.report_error(line, "invalid template format: `{invalid}`", .{
.invalid = invalid,
}),
.literal => |literal| root.create_node(Self{
.line = line,
.kind = .{.string_literal = literal},
}),
.expression => |expression| create: {
var stream = tokens.Stream{
.source = expression,
.line = line,
};
stream.step();
break: create try parse(root, &stream, environment);
},
};
expression_tail.next = expression;
expression_tail = expression;
}
return expression_head;
}
const parse_term = BinaryOp.parser(parse_factor, &.{
.multiplication,
.divsion,
});

View File

@ -1,242 +0,0 @@
const Expr = @import("./Expr.zig");
const coral = @import("coral");
const tokens = @import("../tokens.zig");
const tree = @import("../tree.zig");
next: ?*const Self = null,
line: tokens.Line,
kind: union (enum) {
top_expression: *const Expr,
@"return": Return,
declare: Declare,
@"if": If,
@"while": While,
},
pub const Declare = struct {
declaration: *const tree.Declaration,
initial_expression: *const Expr,
};
pub const If = struct {
then_expression: *const Expr,
@"then": *const Self,
@"else": ?*const Self,
};
pub const Return = struct {
returned_expression: ?*const Expr,
};
const Self = @This();
pub const While = struct {
loop_expression: *const Expr,
loop: *const Self,
};
pub fn parse(root: *tree.Root, stream: *tokens.Stream, environment: *tree.Environment) tree.ParseError!*Self {
switch (stream.token) {
.keyword_return => {
stream.step();
if (stream.token != .end and stream.token != .newline) {
return root.create_node(Self{
.line = stream.line,
.kind = .{.@"return" = .{.returned_expression = try Expr.parse(root, stream, environment)}},
});
}
if (stream.token != .end and stream.token != .newline) {
return root.report_error(stream.line, "expected end or newline after return statement", .{});
}
return root.create_node(Self{
.line = stream.line,
.kind = .{.@"return" = .{.returned_expression = null}},
});
},
.keyword_while => {
defer stream.skip_newlines();
stream.step();
const condition_expression = try Expr.parse(root, stream, environment);
if (stream.token != .symbol_colon) {
return root.report_error(stream.line, "expected `:` after `while` statement", .{});
}
stream.skip_newlines();
const first_statement = try parse(root, stream, environment);
{
var current_statement = first_statement;
while (stream.token != .keyword_end) {
const next_statement = try parse(root, stream, environment);
current_statement.next = next_statement;
current_statement = next_statement;
}
}
return root.create_node(Self{
.line = stream.line,
.kind = .{
.@"while" = .{
.loop = first_statement,
.loop_expression = condition_expression,
},
},
});
},
.keyword_var, .keyword_let => {
const is_constant = stream.token == .keyword_let;
stream.skip_newlines();
const identifier = switch (stream.token) {
.identifier => |identifier| identifier,
else => return root.report_error(stream.line, "expected identifier after declaration", .{}),
};
stream.skip_newlines();
if (stream.token != .symbol_equals) {
return root.report_error(stream.line, "expected `=` after declaration `{identifier}`", .{
.identifier = identifier,
});
}
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{
.declare = .{
.initial_expression = try Expr.parse(root, stream, environment),
.declaration = declare: {
if (is_constant) {
break: declare environment.declare_constant(identifier) catch |declaration_error| {
return root.report_declare_error(stream.line, identifier, declaration_error);
};
}
break: declare environment.declare_variable(identifier) catch |declaration_error| {
return root.report_declare_error(stream.line, identifier, declaration_error);
};
},
},
},
});
},
.keyword_if => return parse_branch(root, stream, environment),
else => return root.create_node(Self{
.line = stream.line,
.kind = .{.top_expression = try Expr.parse(root, stream, environment)},
}),
}
}
fn parse_branch(root: *tree.Root, stream: *tokens.Stream, environment: *tree.Environment) tree.ParseError!*Self {
stream.step();
const expression = try Expr.parse(root, stream, environment);
if (stream.token != .symbol_colon) {
return root.report_error(stream.line, "expected `:` after `{token}`", .{.token = stream.token.text()});
}
stream.skip_newlines();
const first_then_statement = try parse(root, stream, environment);
var current_then_statement = first_then_statement;
while (true) {
switch (stream.token) {
.keyword_end => {
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{
.@"if" = .{
.then_expression = expression,
.@"then" = first_then_statement,
.@"else" = null,
},
},
});
},
.keyword_else => {
stream.step();
if (stream.token != .symbol_colon) {
return root.report_error(stream.line, "expected `:` after `if` statement condition", .{});
}
stream.skip_newlines();
const first_else_statement = try parse(root, stream, environment);
var current_else_statement = first_else_statement;
while (stream.token != .keyword_end) {
const next_statement = try parse(root, stream, environment);
current_else_statement.next = next_statement;
current_else_statement = next_statement;
}
stream.skip_newlines();
return root.create_node(Self{
.line = stream.line,
.kind = .{
.@"if" = .{
.@"else" = first_else_statement,
.@"then" = first_then_statement,
.then_expression = expression,
},
}
});
},
.keyword_elif => {
return root.create_node(Self{
.line = stream.line,
.kind = .{
.@"if" = .{
.@"else" = try parse_branch(root, stream, environment),
.@"then" = first_then_statement,
.then_expression = expression,
},
},
});
},
else => {
const next_statement = try parse(root, stream, environment);
current_then_statement.next = next_statement;
current_then_statement = next_statement;
},
}
}
}

View File

@ -1,23 +0,0 @@
const slices = @import("./slices.zig");
const std = @import("std");
pub fn Parallel(comptime Value: type) type {
const Slices = slices.Parallel(Value);
const alignment = @alignOf(Value);
return struct {
allocator: std.mem.Allocator,
slices: slices.Parallel(Value) = .{},
const Self = @This();
pub fn len(self: Self) usize {
return self.slices.len;
}
pub fn values(self: *Self, comptime field: Slices.Field) []align (alignment) Slices.Element(field) {
return self.slices.slice(field);
}
};
}

View File

@ -1,30 +1,21 @@
const builtin = @import("builtin");
const heap = @import("./heap.zig");
const coral = @import("coral");
const map = @import("./map.zig");
const resource = @import("./resource.zig");
const states = @import("./states.zig");
const std = @import("std");
const stack = @import("./stack.zig");
const system = @import("./system.zig");
thread_pool: ?*std.Thread.Pool = null,
thread_restricted_resources: [std.enums.values(ThreadRestriction).len]resource.Table,
event_systems: stack.Sequential(system.Schedule),
thread_restricted_resources: [std.enums.values(states.ThreadRestriction).len]states.Table,
event_systems: coral.stack.Sequential(system.Schedule),
pub const Event = enum (usize) { _ };
const Self = @This();
pub const ThreadRestriction = enum {
none,
main,
};
pub fn create_event(self: *Self, label: []const u8) std.mem.Allocator.Error!Event {
var systems = try system.Schedule.init(label);
@ -48,7 +39,7 @@ pub fn deinit(self: *Self) void {
if (self.thread_pool) |thread_pool| {
thread_pool.deinit();
heap.allocator.destroy(thread_pool);
coral.heap.allocator.destroy(thread_pool);
}
self.event_systems.deinit();
@ -56,25 +47,25 @@ pub fn deinit(self: *Self) void {
self.* = undefined;
}
pub fn get_resource(self: Self, thread_restriction: ThreadRestriction, comptime Resource: type) ?*Resource {
return @ptrCast(@alignCast(self.thread_restricted_resources[@intFromEnum(thread_restriction)].get(Resource)));
pub fn get_resource(self: Self, comptime State: type) ?*State {
return @ptrCast(@alignCast(self.thread_restricted_resources[@intFromEnum(states.thread_restriction(State))].get(State)));
}
pub fn set_get_resource(self: *Self, thread_restriction: ThreadRestriction, value: anytype) std.mem.Allocator.Error!*@TypeOf(value) {
return self.thread_restricted_resources[@intFromEnum(thread_restriction)].set_get(value);
pub fn set_get_resource(self: *Self, value: anytype) std.mem.Allocator.Error!*@TypeOf(value) {
return self.thread_restricted_resources[@intFromEnum(states.thread_restriction(@TypeOf(value)))].set_get(value);
}
pub fn init(thread_count: u32) std.Thread.SpawnError!Self {
var world = Self{
.thread_restricted_resources = .{resource.Table.init(), resource.Table.init()},
.event_systems = .{.allocator = heap.allocator},
.thread_restricted_resources = .{states.Table.init(), states.Table.init()},
.event_systems = .{.allocator = coral.heap.allocator},
};
if (thread_count != 0 and !builtin.single_threaded) {
const thread_pool = try heap.allocator.create(std.Thread.Pool);
const thread_pool = try coral.heap.allocator.create(std.Thread.Pool);
try thread_pool.init(.{
.allocator = heap.allocator,
.allocator = coral.heap.allocator,
.n_jobs = thread_count,
});
@ -92,6 +83,6 @@ pub fn run_event(self: *Self, event: Event) anyerror!void {
try self.event_systems.values[@intFromEnum(event)].run(self);
}
pub fn set_resource(self: *Self, thread_restriction: ThreadRestriction, value: anytype) std.mem.Allocator.Error!void {
try self.thread_restricted_resources[@intFromEnum(thread_restriction)].set(value);
pub fn set_resource(self: *Self, value: anytype) std.mem.Allocator.Error!void {
try self.thread_restricted_resources[@intFromEnum(states.thread_restriction(@TypeOf(value)))].set(value);
}

View File

@ -1,6 +1,4 @@
const stack = @import("./stack.zig");
const slices = @import("./slices.zig");
const coral = @import("coral");
const std = @import("std");
@ -9,9 +7,9 @@ pub fn Graph(comptime Payload: type) type {
node_count: usize = 0,
table: NodeTables,
const NodeTables = stack.Parallel(struct {
const NodeTables = coral.stack.Parallel(struct {
payload: Payload,
edges: stack.Sequential(Node),
edges: coral.stack.Sequential(Node),
is_occupied: bool = true,
is_visited: bool = false,
});
@ -82,7 +80,7 @@ pub fn Graph(comptime Payload: type) type {
return false;
};
if (slices.index_of(edges.values, 0, edge_node) == null) {
if (coral.slices.index_of(edges.values, 0, edge_node) == null) {
try edges.push_grow(edge_node);
}

273
src/flow/flow.zig Normal file
View File

@ -0,0 +1,273 @@
const std = @import("std");
pub const states = @import("./states.zig");
pub const system = @import("./system.zig");
pub const World = @import("./World.zig");
pub fn Read(comptime Value: type) type {
return Shared(Value, .{
.thread_restriction = states.thread_restriction(Value),
.read_only = true,
});
}
pub const ShareInfo = struct {
thread_restriction: states.ThreadRestriction,
read_only: bool,
};
pub fn Shared(comptime Value: type, comptime info: ShareInfo) type {
const value_info = @typeInfo(Value);
const Qualified = switch (value_info) {
.Optional => @Type(.{
.Optional = .{
.child = .{
.Pointer = .{
.is_allowzero = false,
.sentinel = null,
.address_space = .generic,
.is_volatile = false,
.alignment = @alignOf(Value),
.size = .One,
.child = Value,
.is_const = info.read_only,
},
},
},
}),
else => @Type(.{
.Pointer = .{
.is_allowzero = false,
.sentinel = null,
.address_space = .generic,
.is_volatile = false,
.alignment = @alignOf(Value),
.size = .One,
.child = Value,
.is_const = info.read_only,
},
}),
};
return struct {
res: Qualified,
const Self = @This();
pub const State = struct {
res: Qualified,
};
pub fn bind(context: system.BindContext) std.mem.Allocator.Error!State {
const thread_restriction_name = switch (info.thread_restriction) {
.main => "main thread-restricted ",
.none => ""
};
const res = switch (info.read_only) {
true => (try context.register_readable_resource_access(Value)),
false => (try context.register_writable_resource_access(Value)),
};
return .{
.res = switch (value_info) {
.Optional => res,
else => res orelse {
@panic(std.fmt.comptimePrint("attempt to use {s}{s} {s} that has not yet been set", .{
thread_restriction_name,
if (info.read_only) "read-only" else "read-write",
@typeName(Value),
}));
},
},
};
}
pub fn init(state: *State) Self {
return .{
.res = state.res,
};
}
};
}
pub fn Write(comptime Value: type) type {
return Shared(Value, .{
.thread_restriction = states.thread_restriction(Value),
.read_only = false,
});
}
fn parameter_type(comptime Value: type) *const system.Info.Parameter {
const has_state = @hasDecl(Value, "State");
if (@sizeOf(Value) == 0) {
@compileError("System parameters must have a non-zero size");
}
const parameters = struct {
fn bind(allocator: std.mem.Allocator, context: system.BindContext) std.mem.Allocator.Error!?*anyopaque {
if (has_state) {
const value_name = @typeName(Value);
if (!@hasDecl(Value, "bind")) {
@compileError(
"a `bind` declaration on " ++
value_name ++
" is requied for parameter types with a `State` declaration");
}
const bind_type = @typeInfo(@TypeOf(Value.bind));
if (bind_type != .Fn) {
@compileError("`bind` declaration on " ++ value_name ++ " must be a fn");
}
if (bind_type.Fn.params.len != 1 or bind_type.Fn.params[0].type.? != system.BindContext) {
@compileError(
"`bind` fn on " ++
value_name ++
" must accept " ++
@typeName(system.BindContext) ++
" as it's one and only argument");
}
const state = try allocator.create(Value.State);
state.* = switch (bind_type.Fn.return_type.?) {
Value.State => Value.bind(context),
std.mem.Allocator.Error!Value.State => try Value.bind(context),
else => @compileError(
"`bind` fn on " ++
@typeName(Value) ++
" must return " ++
@typeName(Value.State) ++
" or " ++
@typeName(std.mem.Allocator.Error!Value.State)),
};
return @ptrCast(state);
} else {
return null;
}
}
fn init(argument: *anyopaque, state: ?*anyopaque) void {
const value_name = @typeName(Value);
if (!@hasDecl(Value, "init")) {
@compileError("an `init` declaration on " ++ value_name ++ " is requied for parameter types");
}
const init_type = @typeInfo(@TypeOf(Value.init));
if (init_type != .Fn) {
@compileError("`init` declaration on " ++ value_name ++ " must be a fn");
}
if (init_type.Fn.return_type.? != Value) {
@compileError("`init` fn on " ++ value_name ++ " must return a " ++ value_name);
}
const concrete_argument = @as(*Value, @ptrCast(@alignCast(argument)));
if (has_state) {
if (init_type.Fn.params.len != 1 or init_type.Fn.params[0].type.? != *Value.State) {
@compileError("`init` fn on stateful " ++ value_name ++ " must accept a " ++ @typeName(*Value.State));
}
concrete_argument.* = Value.init(@ptrCast(@alignCast(state.?)));
} else {
if (init_type.Fn.params.len != 0) {
@compileError("`init` fn on statelss " ++ value_name ++ " cannot use parameters");
}
concrete_argument.* = Value.init();
}
}
fn unbind(allocator: std.mem.Allocator, state: ?*anyopaque) void {
if (@hasDecl(Value, "unbind")) {
if (has_state) {
const typed_state = @as(*Value.State, @ptrCast(@alignCast(state.?)));
Value.unbind(typed_state);
allocator.destroy(typed_state);
} else {
Value.unbind();
}
}
}
};
return comptime &.{
.thread_restriction = if (@hasDecl(Value, "thread_restriction")) Value.thread_restriction else .none,
.init = parameters.init,
.bind = parameters.bind,
.unbind = parameters.unbind,
};
}
pub fn system_fn(comptime call: anytype) *const system.Info {
const Call = @TypeOf(call);
const system_info = comptime generate: {
switch (@typeInfo(Call)) {
.Fn => |call_fn| {
if (call_fn.params.len > system.max_parameters) {
@compileError("number of parameters to `call` cannot be more than 16");
}
const systems = struct {
fn run(parameters: []const *const system.Info.Parameter, data: *const [system.max_parameters]?*anyopaque) anyerror!void {
var call_args = @as(std.meta.ArgsTuple(Call), undefined);
inline for (parameters, &call_args, data[0 .. parameters.len]) |parameter, *call_arg, state| {
parameter.init(call_arg, state);
}
switch (@typeInfo(call_fn.return_type.?)) {
.Void => @call(.auto, call, call_args),
.ErrorUnion => try @call(.auto, call, call_args),
else => @compileError("number of parameters to `call` must return void or !void"),
}
}
};
var parameters = @as([system.max_parameters]*const system.Info.Parameter, undefined);
var thread_restriction = states.ThreadRestriction.none;
for (0 .. call_fn.params.len) |index| {
const CallParam = call_fn.params[index].type.?;
const parameter = parameter_type(CallParam);
if (parameter.thread_restriction != .none) {
if (thread_restriction != .none and thread_restriction != parameter.thread_restriction) {
@compileError("a system may not have conflicting thread restrictions");
}
thread_restriction = parameter.thread_restriction;
}
parameters[index] = parameter;
}
break: generate &.{
.parameters = parameters,
.parameter_count = call_fn.params.len,
.execute = systems.run,
.thread_restriction = thread_restriction,
};
},
else => @compileError("parameter `call` must be a function"),
}
};
return system_info;
}

View File

@ -1,12 +1,10 @@
const coral = @import("coral");
const std = @import("std");
const heap = @import("./heap.zig");
const map = @import("./map.zig");
pub const Table = struct {
arena: std.heap.ArenaAllocator,
table: map.Hashed(TypeID, Entry, map.enum_traits(TypeID)),
table: coral.map.Hashed(TypeID, Entry, coral.map.enum_traits(TypeID)),
const Entry = struct {
ptr: *anyopaque,
@ -29,8 +27,8 @@ pub const Table = struct {
pub fn init() Table {
return .{
.arena = std.heap.ArenaAllocator.init(heap.allocator),
.table = .{.allocator = heap.allocator},
.arena = std.heap.ArenaAllocator.init(coral.heap.allocator),
.table = .{.allocator = coral.heap.allocator},
};
}
@ -61,6 +59,11 @@ pub const Table = struct {
}
};
pub const ThreadRestriction = enum {
none,
main,
};
pub const TypeID = enum (usize) { _ };
pub fn type_id(comptime T: type) TypeID {
@ -74,3 +77,11 @@ pub fn type_id(comptime T: type) TypeID {
return @enumFromInt(@intFromPtr(&TypeHandle.byte));
}
pub fn thread_restriction(comptime State: type) ThreadRestriction {
if (@hasDecl(State, "thread_restriction")) {
return State.thread_restriction;
}
return .none;
}

View File

@ -1,14 +1,8 @@
const coral = @import("coral");
const dag = @import("./dag.zig");
const heap = @import("./heap.zig");
const map = @import("./map.zig");
const resource = @import("./resource.zig");
const slices = @import("./slices.zig");
const stack = @import("./stack.zig");
const states = @import("./states.zig");
const std = @import("std");
@ -21,7 +15,7 @@ pub const BindContext = struct {
pub const ResourceAccess = std.meta.Tag(Schedule.ResourceAccess);
pub fn accesses_resource(self: BindContext, access: ResourceAccess, id: resource.TypeID) bool {
pub fn accesses_resource(self: BindContext, access: ResourceAccess, id: states.TypeID) bool {
const resource_accesses = &self.systems.graph.get_ptr(self.node).?.resource_accesses;
for (resource_accesses.values) |resource_access| {
@ -43,12 +37,12 @@ pub const BindContext = struct {
return false;
}
pub fn register_read_write_resource_access(self: BindContext, thread_restriction: World.ThreadRestriction, comptime Resource: type) std.mem.Allocator.Error!?*Resource {
const value = self.world.get_resource(thread_restriction, Resource) orelse {
pub fn register_writable_resource_access(self: BindContext, comptime Resource: type) std.mem.Allocator.Error!?*Resource {
const value = self.world.get_resource(Resource) orelse {
return null;
};
const id = resource.type_id(Resource);
const id = states.type_id(Resource);
if (!self.accesses_resource(.read_write, id)) {
try self.systems.graph.get_ptr(self.node).?.resource_accesses.push_grow(.{.read_write = id});
@ -57,26 +51,26 @@ pub const BindContext = struct {
const read_write_resource_nodes = lazily_create: {
break: lazily_create self.systems.read_write_resource_id_nodes.get_ptr(id) orelse insert: {
std.debug.assert(try self.systems.read_write_resource_id_nodes.emplace(id, .{
.allocator = heap.allocator,
.allocator = coral.heap.allocator,
}));
break: insert self.systems.read_write_resource_id_nodes.get_ptr(id).?;
};
};
if (slices.index_of(read_write_resource_nodes.values, 0, self.node) == null) {
if (coral.slices.index_of(read_write_resource_nodes.values, 0, self.node) == null) {
try read_write_resource_nodes.push_grow(self.node);
}
return value;
}
pub fn register_read_only_resource_access(self: BindContext, thread_restriction: World.ThreadRestriction, comptime Resource: type) std.mem.Allocator.Error!?*const Resource {
const value = self.world.get_resource(thread_restriction, Resource) orelse {
pub fn register_readable_resource_access(self: BindContext, comptime Resource: type) std.mem.Allocator.Error!?*const Resource {
const value = self.world.get_resource(Resource) orelse {
return null;
};
const id = resource.type_id(Resource);
const id = states.type_id(Resource);
if (!self.accesses_resource(.read_only, id)) {
try self.systems.graph.get_ptr(self.node).?.resource_accesses.push_grow(.{.read_only = id});
@ -85,14 +79,14 @@ pub const BindContext = struct {
const read_only_resource_nodes = lazily_create: {
break: lazily_create self.systems.read_only_resource_id_nodes.get_ptr(id) orelse insert: {
std.debug.assert(try self.systems.read_only_resource_id_nodes.emplace(id, .{
.allocator = heap.allocator,
.allocator = coral.heap.allocator,
}));
break: insert self.systems.read_only_resource_id_nodes.get_ptr(id).?;
};
};
if (slices.index_of(read_only_resource_nodes.values, 0, self.node) == null) {
if (coral.slices.index_of(read_only_resource_nodes.values, 0, self.node) == null) {
try read_only_resource_nodes.push_grow(self.node);
}
@ -104,10 +98,10 @@ pub const Info = struct {
execute: *const fn ([]const *const Parameter, *const [max_parameters]?*anyopaque) anyerror!void,
parameters: [max_parameters]*const Parameter = undefined,
parameter_count: u4 = 0,
thread_restriction: World.ThreadRestriction = .none,
thread_restriction: states.ThreadRestriction = .none,
pub const Parameter = struct {
thread_restriction: World.ThreadRestriction,
thread_restriction: states.ThreadRestriction,
init: *const fn (*anyopaque, ?*anyopaque) void,
bind: *const fn (std.mem.Allocator, BindContext) std.mem.Allocator.Error!?*anyopaque,
unbind: *const fn (std.mem.Allocator, ?*anyopaque) void,
@ -128,7 +122,7 @@ pub const Schedule = struct {
label: [:0]const u8,
graph: Graph,
arena: std.heap.ArenaAllocator,
system_id_nodes: map.Hashed(usize, NodeBundle, map.usize_traits),
system_id_nodes: coral.map.Hashed(usize, NodeBundle, coral.map.usize_traits),
read_write_resource_id_nodes: ResourceNodeBundle,
read_only_resource_id_nodes: ResourceNodeBundle,
parallel_work_bundles: ParallelNodeBundles,
@ -149,19 +143,19 @@ pub const Schedule = struct {
label: [:0]u8,
dependencies: []Dependency,
parameter_states: [max_parameters]?*anyopaque = [_]?*anyopaque{null} ** max_parameters,
resource_accesses: stack.Sequential(ResourceAccess),
resource_accesses: coral.stack.Sequential(ResourceAccess),
});
const NodeBundle = stack.Sequential(dag.Node);
const NodeBundle = coral.stack.Sequential(dag.Node);
const ParallelNodeBundles = stack.Sequential(NodeBundle);
const ParallelNodeBundles = coral.stack.Sequential(NodeBundle);
const ResourceAccess = union (enum) {
read_only: resource.TypeID,
read_write: resource.TypeID,
read_only: states.TypeID,
read_write: states.TypeID,
};
const ResourceNodeBundle = map.Hashed(resource.TypeID, NodeBundle, map.enum_traits(resource.TypeID));
const ResourceNodeBundle = coral.map.Hashed(states.TypeID, NodeBundle, coral.map.enum_traits(states.TypeID));
pub fn deinit(self: *Schedule) void {
{
@ -198,8 +192,8 @@ pub const Schedule = struct {
}
system.resource_accesses.deinit();
heap.allocator.free(system.dependencies);
heap.allocator.free(system.label);
coral.heap.allocator.free(system.dependencies);
coral.heap.allocator.free(system.label);
}
for (self.parallel_work_bundles.values) |*bundle| {
@ -304,7 +298,7 @@ pub const Schedule = struct {
continue;
}
try schedule.parallel_work_bundles.push_grow(.{.allocator = heap.allocator});
try schedule.parallel_work_bundles.push_grow(.{.allocator = coral.heap.allocator});
const bundle = schedule.parallel_work_bundles.get_ptr().?;
@ -385,21 +379,21 @@ pub const Schedule = struct {
}
pub fn init(label: []const u8) std.mem.Allocator.Error!Schedule {
var arena = std.heap.ArenaAllocator.init(heap.allocator);
var arena = std.heap.ArenaAllocator.init(coral.heap.allocator);
errdefer arena.deinit();
const duped_label = try arena.allocator().dupeZ(u8, label);
return .{
.graph = Graph.init(heap.allocator),
.graph = Graph.init(coral.heap.allocator),
.label = duped_label,
.arena = arena,
.system_id_nodes = .{.allocator = heap.allocator},
.read_write_resource_id_nodes = .{.allocator = heap.allocator},
.read_only_resource_id_nodes = .{.allocator = heap.allocator},
.parallel_work_bundles = .{.allocator = heap.allocator},
.blocking_work = .{.allocator = heap.allocator},
.system_id_nodes = .{.allocator = coral.heap.allocator},
.read_write_resource_id_nodes = .{.allocator = coral.heap.allocator},
.read_only_resource_id_nodes = .{.allocator = coral.heap.allocator},
.parallel_work_bundles = .{.allocator = coral.heap.allocator},
.blocking_work = .{.allocator = coral.heap.allocator},
};
}
@ -432,7 +426,7 @@ pub const Schedule = struct {
const dependencies = init: {
const total_run_orders = order.run_after.len + order.run_before.len;
const dependencies = try heap.allocator.alloc(Dependency, total_run_orders);
const dependencies = try coral.heap.allocator.alloc(Dependency, total_run_orders);
var dependencies_written = @as(usize, 0);
for (order.run_after) |after_system| {
@ -456,17 +450,17 @@ pub const Schedule = struct {
break: init dependencies;
};
errdefer heap.allocator.free(dependencies);
errdefer coral.heap.allocator.free(dependencies);
const label = try heap.allocator.dupeZ(u8, if (order.label.len == 0) "anonymous system" else order.label);
const label = try coral.heap.allocator.dupeZ(u8, if (order.label.len == 0) "anonymous system" else order.label);
errdefer heap.allocator.free(label);
errdefer coral.heap.allocator.free(label);
const node = try self.graph.append(.{
.info = info,
.label = label,
.dependencies = dependencies,
.resource_accesses = .{.allocator = heap.allocator},
.resource_accesses = .{.allocator = coral.heap.allocator},
});
const system = self.graph.get_ptr(node).?;

View File

@ -23,7 +23,7 @@ pub fn main() !void {
});
}
fn load(display: coral.Write(ona.gfx.Display), actors: coral.Write(Actors), assets: coral.Write(ona.gfx.Assets)) !void {
fn load(display: ona.Write(ona.gfx.Display), actors: ona.Write(Actors), assets: ona.Write(ona.gfx.Assets)) !void {
display.res.width, display.res.height = .{1280, 720};
actors.res.body_texture = try assets.res.create_from_file(coral.files.bundle, "actor.bmp");
actors.res.quad_mesh_2d = try assets.res.create_quad_mesh_2d(@splat(1));
@ -44,11 +44,11 @@ fn load(display: coral.Write(ona.gfx.Display), actors: coral.Write(Actors), asse
try actors.res.instances.push_grow(.{0, 0});
}
fn exit(actors: coral.Write(Actors)) void {
fn exit(actors: ona.Write(Actors)) void {
actors.res.instances.deinit();
}
fn render(queue: ona.gfx.Queue, actors: coral.Write(Actors), display: coral.Read(ona.gfx.Display)) !void {
fn render(queue: ona.gfx.Queue, actors: ona.Write(Actors), display: ona.Read(ona.gfx.Display)) !void {
try queue.commands.append(.{.target = .{
.texture = actors.res.render_texture.?,
.clear_color = .{0, 0, 0, 0},
@ -85,19 +85,19 @@ fn render(queue: ona.gfx.Queue, actors: coral.Write(Actors), display: coral.Read
}});
}
fn update(player: coral.Read(Player), actors: coral.Write(Actors), mapping: coral.Read(ona.act.Mapping)) !void {
fn update(player: ona.Read(Player), actors: ona.Write(Actors), mapping: ona.Read(ona.act.Mapping)) !void {
actors.res.instances.values[0] += .{
mapping.res.axis_strength(player.res.move_x) * 10,
mapping.res.axis_strength(player.res.move_y) * 10,
};
}
fn setup(world: *coral.World, events: ona.App.Events) !void {
try world.set_resource(.none, Actors{});
try world.set_resource(.none, Player{});
fn setup(world: *ona.World, events: ona.App.Events) !void {
try world.set_resource(Actors{});
try world.set_resource(Player{});
try world.on_event(events.load, coral.system_fn(load), .{.label = "load"});
try world.on_event(events.update, coral.system_fn(update), .{.label = "update"});
try world.on_event(events.exit, coral.system_fn(exit), .{.label = "exit"});
try world.on_event(events.render, coral.system_fn(render), .{.label = "render actors"});
try world.on_event(events.load, ona.system_fn(load), .{.label = "load"});
try world.on_event(events.update, ona.system_fn(update), .{.label = "update"});
try world.on_event(events.exit, ona.system_fn(exit), .{.label = "exit"});
try world.on_event(events.render, ona.system_fn(render), .{.label = "render actors"});
}

View File

@ -1,17 +1,19 @@
const coral = @import("coral");
const flow = @import("flow");
events: *const Events,
target_frame_time: f64,
is_running: bool,
pub const Events = struct {
load: coral.World.Event,
pre_update: coral.World.Event,
update: coral.World.Event,
post_update: coral.World.Event,
render: coral.World.Event,
finish: coral.World.Event,
exit: coral.World.Event,
load: flow.World.Event,
pre_update: flow.World.Event,
update: flow.World.Event,
post_update: flow.World.Event,
render: flow.World.Event,
finish: flow.World.Event,
exit: flow.World.Event,
};
const Self = @This();

View File

@ -2,6 +2,8 @@ const App = @import("./App.zig");
const coral = @import("coral");
const flow = @import("flow");
const gfx = @import("./gfx.zig");
const msg = @import("./msg.zig");
@ -35,15 +37,15 @@ pub const Mapping = struct {
}
};
pub fn setup(world: *coral.World, events: App.Events) std.mem.Allocator.Error!void {
try world.set_resource(.none, Mapping{});
pub fn setup(world: *flow.World, events: App.Events) std.mem.Allocator.Error!void {
try world.set_resource(Mapping{});
try world.on_event(events.pre_update, coral.system_fn(update), .{
try world.on_event(events.pre_update, flow.system_fn(update), .{
.label = "update act",
});
}
pub fn update(inputs: msg.Receive(gfx.Input), mapping: coral.Write(Mapping)) void {
pub fn update(inputs: msg.Receive(gfx.Input), mapping: flow.Write(Mapping)) void {
mapping.res.keys_pressed = Mapping.ScancodeSet.initEmpty();
for (inputs.messages()) |message| {

View File

@ -6,27 +6,35 @@ const device = @import("./gfx/device.zig");
const ext = @import("./ext.zig");
const flow = @import("flow");
const formats = @import("./gfx/formats.zig");
const msg = @import("./msg.zig");
const std = @import("std");
pub const Assets = struct {
context: device.Context,
formats: coral.stack.Sequential(Format),
staging_arena: std.heap.ArenaAllocator,
pub const Format = struct {
pub const AssetFormat = struct {
extension: []const u8,
file_desc: *const fn (*std.heap.ArenaAllocator, coral.files.Storage, []const u8) Error!Desc,
file_desc: *const FileDesc,
pub const Error = std.mem.Allocator.Error || coral.files.Error || error {
FormatUnsupported,
};
pub const FileDesc = fn (*std.heap.ArenaAllocator, coral.files.Storage, []const u8) Error!Desc;
};
pub fn create_from_file(self: *Assets, storage: coral.files.Storage, path: []const u8) (OpenError || Format.Error)!*Handle {
pub const Assets = struct {
context: device.Context,
formats: coral.stack.Sequential(AssetFormat),
staging_arena: std.heap.ArenaAllocator,
pub fn create_from_file(
self: *Assets,
storage: coral.files.Storage,
path: []const u8,
) (OpenError || AssetFormat.Error)!*Handle {
defer {
const max_cache_size = 536870912;
@ -62,6 +70,8 @@ pub const Assets = struct {
},
});
}
pub const thread_restriction = .main;
};
pub const Color = @Vector(4, f32);
@ -163,7 +173,7 @@ pub const Queue = struct {
command_index: usize,
};
pub fn bind(_: coral.system.BindContext) std.mem.Allocator.Error!State {
pub fn bind(_: flow.system.BindContext) std.mem.Allocator.Error!State {
// TODO: Review how good of an idea this global state is, even if bind is guaranteed to always be ran on main.
if (renders.is_empty()) {
renders = .{.allocator = coral.heap.allocator};
@ -207,7 +217,7 @@ pub const Transform2D = extern struct {
origin: Point2D = @splat(0),
};
const builtin_formats = [_]Assets.Format{
const builtin_formats = [_]AssetFormat{
.{
.extension = "bmp",
.file_desc = formats.bmp_file_desc,
@ -228,7 +238,7 @@ pub const colors = struct {
}
};
pub fn poll(app: coral.Write(App), inputs: msg.Send(Input)) !void {
pub fn poll(app: flow.Write(App), inputs: msg.Send(Input)) !void {
var event = @as(ext.SDL_Event, undefined);
while (ext.SDL_PollEvent(&event) != 0) {
@ -241,7 +251,7 @@ pub fn poll(app: coral.Write(App), inputs: msg.Send(Input)) !void {
}
}
pub fn setup(world: *coral.World, events: App.Events) (error {Unsupported} || std.Thread.SpawnError || std.mem.Allocator.Error)!void {
pub fn setup(world: *flow.World, events: App.Events) (error {Unsupported} || std.Thread.SpawnError || std.mem.Allocator.Error)!void {
if (ext.SDL_Init(ext.SDL_INIT_VIDEO) != 0) {
return error.Unsupported;
}
@ -250,32 +260,32 @@ pub fn setup(world: *coral.World, events: App.Events) (error {Unsupported} || st
errdefer context.deinit();
var registered_formats = coral.stack.Sequential(Assets.Format){.allocator = coral.heap.allocator};
var registered_formats = coral.stack.Sequential(AssetFormat){.allocator = coral.heap.allocator};
errdefer registered_formats.deinit();
try registered_formats.grow(builtin_formats.len);
std.debug.assert(registered_formats.push_all(&builtin_formats));
try world.set_resource(.none, Assets{
try world.set_resource(Assets{
.staging_arena = std.heap.ArenaAllocator.init(coral.heap.allocator),
.formats = registered_formats,
.context = context,
});
try world.set_resource(.none, Display{});
try world.on_event(events.pre_update, coral.system_fn(poll), .{.label = "poll gfx"});
try world.on_event(events.exit, coral.system_fn(stop), .{.label = "stop gfx"});
try world.on_event(events.finish, coral.system_fn(synchronize), .{.label = "synchronize gfx"});
try world.set_resource(Display{});
try world.on_event(events.pre_update, flow.system_fn(poll), .{.label = "poll gfx"});
try world.on_event(events.exit, flow.system_fn(stop), .{.label = "stop gfx"});
try world.on_event(events.finish, flow.system_fn(synchronize), .{.label = "synchronize gfx"});
}
pub fn stop(assets: coral.Write(Assets)) void {
pub fn stop(assets: flow.Write(Assets)) void {
assets.res.staging_arena.deinit();
assets.res.formats.deinit();
assets.res.context.deinit();
}
pub fn synchronize(assets: coral.Write(Assets), display: coral.Read(Display)) !void {
pub fn synchronize(assets: flow.Write(Assets), display: flow.Read(Display)) !void {
assets.res.context.submit(.{
.width = display.res.width,
.height = display.res.height,

View File

@ -2,14 +2,14 @@ const commands = @import("./commands.zig");
const coral = @import("coral");
const default_2d = @import("./shaders/default_2d.glsl.zig");
const ext = @import("../ext.zig");
const gfx = @import("../gfx.zig");
const sokol = @import("sokol");
const spirv = @import("./spirv.zig");
const std = @import("std");
pub const Context = struct {
@ -125,7 +125,7 @@ pub const Context = struct {
};
const Frame = struct {
projection: default_2d.Mat4 = .{@splat(0), @splat(0), @splat(0), @splat(0)},
projection: Projection = .{@splat(0), @splat(0), @splat(0), @splat(0)},
flushed_batch_count: usize = 0,
pushed_batch_count: usize = 0,
render_passes: usize = 0,
@ -380,7 +380,7 @@ const Loop = struct {
ext.SDL_GL_DeleteContext(context);
}
var rendering_2d = Rendering2D.init();
var rendering_2d = try Rendering2D.init(coral.heap.allocator);
defer rendering_2d.deinit();
@ -455,6 +455,8 @@ const Loop = struct {
}
};
const Projection = [4]@Vector(4, f32);
pub const RenderChain = commands.Chain(gfx.Command, clone_command);
pub const RenderList = commands.List(gfx.Command, clone_command);
@ -529,10 +531,7 @@ const Rendering2D = struct {
}
sokol.gfx.applyPipeline(self.batching_pipeline);
sokol.gfx.applyUniforms(.VS, default_2d.SLOT_Projection, sokol.gfx.asRange(&default_2d.Projection{
.projection = frame.projection,
}));
sokol.gfx.applyUniforms(.VS, 0, sokol.gfx.asRange(&frame.projection));
const mesh_2d = resource_cast(frame.mesh.?).payload.mesh_2d;
@ -603,7 +602,7 @@ const Rendering2D = struct {
}
}
fn init() Rendering2D {
fn init(allocator: std.mem.Allocator) spirv.CompileError!Rendering2D {
sokol.gfx.setup(.{
.environment = .{
.defaults = .{
@ -618,6 +617,18 @@ const Rendering2D = struct {
},
});
var arena = std.heap.ArenaAllocator.init(allocator);
defer arena.deinit();
const shader_desc = try spirv.compile(&arena, .{
.fragment_spirv = shader_sources.fragment_spirv[0 ..],
.vertex_spirv = shader_sources.vertex_spirv[0 ..],
});
std.log.info("{s}\n", .{shader_desc.fs.source});
std.log.info("{s}", .{shader_desc.vs.source});
return .{
.batching_pipeline = sokol.gfx.makePipeline(.{
.label = "2D drawing pipeline",
@ -626,42 +637,42 @@ const Rendering2D = struct {
.attrs = get: {
var attrs = [_]sokol.gfx.VertexAttrState{.{}} ** 16;
attrs[default_2d.ATTR_vs_mesh_xy] = .{
attrs[0] = .{
.format = .FLOAT2,
.buffer_index = buffer_indices.mesh,
};
attrs[default_2d.ATTR_vs_mesh_uv] = .{
attrs[1] = .{
.format = .FLOAT2,
.buffer_index = buffer_indices.mesh,
};
attrs[default_2d.ATTR_vs_instance_xbasis] = .{
attrs[2] = .{
.format = .FLOAT2,
.buffer_index = buffer_indices.instance,
};
attrs[default_2d.ATTR_vs_instance_ybasis] = .{
attrs[3] = .{
.format = .FLOAT2,
.buffer_index = buffer_indices.instance,
};
attrs[default_2d.ATTR_vs_instance_origin] = .{
attrs[4] = .{
.format = .FLOAT2,
.buffer_index = buffer_indices.instance,
};
attrs[default_2d.ATTR_vs_instance_tint] = .{
attrs[5] = .{
.format = .UBYTE4N,
.buffer_index = buffer_indices.instance,
};
attrs[default_2d.ATTR_vs_instance_depth] = .{
attrs[6] = .{
.format = .FLOAT,
.buffer_index = buffer_indices.instance,
};
attrs[default_2d.ATTR_vs_instance_rect] = .{
attrs[7] = .{
.format = .FLOAT4,
.buffer_index = buffer_indices.instance,
};
@ -678,7 +689,7 @@ const Rendering2D = struct {
},
},
.shader = sokol.gfx.makeShader(default_2d.draw2dShaderDesc(sokol.gfx.queryBackend())),
.shader = sokol.gfx.makeShader(shader_desc),
.index_type = .UINT16,
}),
@ -698,7 +709,6 @@ const Rendering2D = struct {
var pass = sokol.gfx.Pass{
.action = .{
// TODO: Review if stencil buffer is needed.
.stencil = .{.load_action = .CLEAR},
},
};
@ -725,7 +735,7 @@ const Rendering2D = struct {
const render_target = resource_cast(render_texture).payload.render_target;
pass.attachments = render_target.attachments;
frame.projection = ortho_projection(0.0, @floatFromInt(render_target.width), 0.0, @floatFromInt(render_target.height), -1.0, 1.0);
frame.projection = orthographic_projection(0.0, @floatFromInt(render_target.width), 0.0, @floatFromInt(render_target.height), -1.0, 1.0);
} else {
var target_width, var target_height = [_]c_int{0, 0};
@ -741,11 +751,127 @@ const Rendering2D = struct {
.gl = .{.framebuffer = 0},
};
frame.projection = ortho_projection(0.0, @floatFromInt(target_width), @floatFromInt(target_height), 0.0, -1.0, 1.0);
frame.projection = orthographic_projection(0.0, @floatFromInt(target_width), @floatFromInt(target_height), 0.0, -1.0, 1.0);
}
sokol.gfx.beginPass(pass);
}
const shader_sources = .{
.vertex_spirv = &[_]u32{
0x07230203, 0x00010000, 0x0008000b, 0x00000053, 0x00000000, 0x00020011, 0x00000001, 0x0006000b,
0x00000001, 0x4c534c47, 0x6474732e, 0x3035342e, 0x00000000, 0x0003000e, 0x00000000, 0x00000001,
0x0010000f, 0x00000000, 0x00000004, 0x6e69616d, 0x00000000, 0x0000000b, 0x0000000d, 0x00000013,
0x0000001a, 0x00000034, 0x00000036, 0x0000003d, 0x0000003f, 0x00000042, 0x0000004c, 0x0000004e,
0x00030003, 0x00000002, 0x000001ae, 0x00040005, 0x00000004, 0x6e69616d, 0x00000000, 0x00060005,
0x00000009, 0x6c726f77, 0x6f705f64, 0x69746973, 0x00006e6f, 0x00060005, 0x0000000b, 0x74736e69,
0x65636e61, 0x69726f5f, 0x006e6967, 0x00040005, 0x0000000d, 0x6873656d, 0x0079785f, 0x00060005,
0x00000013, 0x74736e69, 0x65636e61, 0x6162785f, 0x00736973, 0x00060005, 0x0000001a, 0x74736e69,
0x65636e61, 0x6162795f, 0x00736973, 0x00070005, 0x0000001e, 0x6a6f7270, 0x65746365, 0x6f705f64,
0x69746973, 0x00006e6f, 0x00050005, 0x00000021, 0x6a6f7250, 0x69746365, 0x00006e6f, 0x00080006,
0x00000021, 0x00000000, 0x6a6f7270, 0x69746365, 0x6d5f6e6f, 0x69727461, 0x00000078, 0x00030005,
0x00000023, 0x00000000, 0x00060005, 0x00000032, 0x505f6c67, 0x65567265, 0x78657472, 0x00000000,
0x00060006, 0x00000032, 0x00000000, 0x505f6c67, 0x7469736f, 0x006e6f69, 0x00070006, 0x00000032,
0x00000001, 0x505f6c67, 0x746e696f, 0x657a6953, 0x00000000, 0x00070006, 0x00000032, 0x00000002,
0x435f6c67, 0x4470696c, 0x61747369, 0x0065636e, 0x00030005, 0x00000034, 0x00000000, 0x00060005,
0x00000036, 0x74736e69, 0x65636e61, 0x7065645f, 0x00006874, 0x00040005, 0x0000003d, 0x6f6c6f63,
0x00000072, 0x00060005, 0x0000003f, 0x74736e69, 0x65636e61, 0x6e69745f, 0x00000074, 0x00050005,
0x00000041, 0x74636572, 0x736f705f, 0x00000000, 0x00060005, 0x00000042, 0x74736e69, 0x65636e61,
0x6365725f, 0x00000074, 0x00050005, 0x00000045, 0x74636572, 0x7a69735f, 0x00000065, 0x00030005,
0x0000004c, 0x00007675, 0x00040005, 0x0000004e, 0x6873656d, 0x0076755f, 0x00040047, 0x0000000b,
0x0000001e, 0x00000004, 0x00040047, 0x0000000d, 0x0000001e, 0x00000000, 0x00040047, 0x00000013,
0x0000001e, 0x00000002, 0x00040047, 0x0000001a, 0x0000001e, 0x00000003, 0x00040048, 0x00000021,
0x00000000, 0x00000005, 0x00050048, 0x00000021, 0x00000000, 0x00000023, 0x00000000, 0x00050048,
0x00000021, 0x00000000, 0x00000007, 0x00000010, 0x00030047, 0x00000021, 0x00000002, 0x00040047,
0x00000023, 0x00000022, 0x00000000, 0x00040047, 0x00000023, 0x00000021, 0x00000000, 0x00050048,
0x00000032, 0x00000000, 0x0000000b, 0x00000000, 0x00050048, 0x00000032, 0x00000001, 0x0000000b,
0x00000001, 0x00050048, 0x00000032, 0x00000002, 0x0000000b, 0x00000003, 0x00030047, 0x00000032,
0x00000002, 0x00040047, 0x00000036, 0x0000001e, 0x00000006, 0x00040047, 0x0000003d, 0x0000001e,
0x00000000, 0x00040047, 0x0000003f, 0x0000001e, 0x00000005, 0x00040047, 0x00000042, 0x0000001e,
0x00000007, 0x00040047, 0x0000004c, 0x0000001e, 0x00000001, 0x00040047, 0x0000004e, 0x0000001e,
0x00000001, 0x00020013, 0x00000002, 0x00030021, 0x00000003, 0x00000002, 0x00030016, 0x00000006,
0x00000020, 0x00040017, 0x00000007, 0x00000006, 0x00000002, 0x00040020, 0x00000008, 0x00000007,
0x00000007, 0x00040020, 0x0000000a, 0x00000001, 0x00000007, 0x0004003b, 0x0000000a, 0x0000000b,
0x00000001, 0x0004003b, 0x0000000a, 0x0000000d, 0x00000001, 0x00040015, 0x0000000e, 0x00000020,
0x00000000, 0x0004002b, 0x0000000e, 0x0000000f, 0x00000000, 0x00040020, 0x00000010, 0x00000001,
0x00000006, 0x0004003b, 0x0000000a, 0x00000013, 0x00000001, 0x0004002b, 0x0000000e, 0x00000017,
0x00000001, 0x0004003b, 0x0000000a, 0x0000001a, 0x00000001, 0x00040017, 0x0000001f, 0x00000006,
0x00000004, 0x00040018, 0x00000020, 0x0000001f, 0x00000004, 0x0003001e, 0x00000021, 0x00000020,
0x00040020, 0x00000022, 0x00000002, 0x00000021, 0x0004003b, 0x00000022, 0x00000023, 0x00000002,
0x00040015, 0x00000024, 0x00000020, 0x00000001, 0x0004002b, 0x00000024, 0x00000025, 0x00000000,
0x00040020, 0x00000026, 0x00000002, 0x00000020, 0x0004002b, 0x00000006, 0x0000002a, 0x00000000,
0x0004002b, 0x00000006, 0x0000002b, 0x3f800000, 0x0004001c, 0x00000031, 0x00000006, 0x00000017,
0x0005001e, 0x00000032, 0x0000001f, 0x00000006, 0x00000031, 0x00040020, 0x00000033, 0x00000003,
0x00000032, 0x0004003b, 0x00000033, 0x00000034, 0x00000003, 0x0004003b, 0x00000010, 0x00000036,
0x00000001, 0x00040020, 0x0000003b, 0x00000003, 0x0000001f, 0x0004003b, 0x0000003b, 0x0000003d,
0x00000003, 0x00040020, 0x0000003e, 0x00000001, 0x0000001f, 0x0004003b, 0x0000003e, 0x0000003f,
0x00000001, 0x0004003b, 0x0000003e, 0x00000042, 0x00000001, 0x00040020, 0x0000004b, 0x00000003,
0x00000007, 0x0004003b, 0x0000004b, 0x0000004c, 0x00000003, 0x0004003b, 0x0000000a, 0x0000004e,
0x00000001, 0x00050036, 0x00000002, 0x00000004, 0x00000000, 0x00000003, 0x000200f8, 0x00000005,
0x0004003b, 0x00000008, 0x00000009, 0x00000007, 0x0004003b, 0x00000008, 0x0000001e, 0x00000007,
0x0004003b, 0x00000008, 0x00000041, 0x00000007, 0x0004003b, 0x00000008, 0x00000045, 0x00000007,
0x0004003d, 0x00000007, 0x0000000c, 0x0000000b, 0x00050041, 0x00000010, 0x00000011, 0x0000000d,
0x0000000f, 0x0004003d, 0x00000006, 0x00000012, 0x00000011, 0x0004003d, 0x00000007, 0x00000014,
0x00000013, 0x0005008e, 0x00000007, 0x00000015, 0x00000014, 0x00000012, 0x00050081, 0x00000007,
0x00000016, 0x0000000c, 0x00000015, 0x00050041, 0x00000010, 0x00000018, 0x0000000d, 0x00000017,
0x0004003d, 0x00000006, 0x00000019, 0x00000018, 0x0004003d, 0x00000007, 0x0000001b, 0x0000001a,
0x0005008e, 0x00000007, 0x0000001c, 0x0000001b, 0x00000019, 0x00050081, 0x00000007, 0x0000001d,
0x00000016, 0x0000001c, 0x0003003e, 0x00000009, 0x0000001d, 0x00050041, 0x00000026, 0x00000027,
0x00000023, 0x00000025, 0x0004003d, 0x00000020, 0x00000028, 0x00000027, 0x0004003d, 0x00000007,
0x00000029, 0x00000009, 0x00050051, 0x00000006, 0x0000002c, 0x00000029, 0x00000000, 0x00050051,
0x00000006, 0x0000002d, 0x00000029, 0x00000001, 0x00070050, 0x0000001f, 0x0000002e, 0x0000002c,
0x0000002d, 0x0000002a, 0x0000002b, 0x00050091, 0x0000001f, 0x0000002f, 0x00000028, 0x0000002e,
0x0007004f, 0x00000007, 0x00000030, 0x0000002f, 0x0000002f, 0x00000000, 0x00000001, 0x0003003e,
0x0000001e, 0x00000030, 0x0004003d, 0x00000007, 0x00000035, 0x0000001e, 0x0004003d, 0x00000006,
0x00000037, 0x00000036, 0x00050051, 0x00000006, 0x00000038, 0x00000035, 0x00000000, 0x00050051,
0x00000006, 0x00000039, 0x00000035, 0x00000001, 0x00070050, 0x0000001f, 0x0000003a, 0x00000038,
0x00000039, 0x00000037, 0x0000002b, 0x00050041, 0x0000003b, 0x0000003c, 0x00000034, 0x00000025,
0x0003003e, 0x0000003c, 0x0000003a, 0x0004003d, 0x0000001f, 0x00000040, 0x0000003f, 0x0003003e,
0x0000003d, 0x00000040, 0x0004003d, 0x0000001f, 0x00000043, 0x00000042, 0x0007004f, 0x00000007,
0x00000044, 0x00000043, 0x00000043, 0x00000000, 0x00000001, 0x0003003e, 0x00000041, 0x00000044,
0x0004003d, 0x0000001f, 0x00000046, 0x00000042, 0x0007004f, 0x00000007, 0x00000047, 0x00000046,
0x00000046, 0x00000002, 0x00000003, 0x0004003d, 0x0000001f, 0x00000048, 0x00000042, 0x0007004f,
0x00000007, 0x00000049, 0x00000048, 0x00000048, 0x00000000, 0x00000001, 0x00050083, 0x00000007,
0x0000004a, 0x00000047, 0x00000049, 0x0003003e, 0x00000045, 0x0000004a, 0x0004003d, 0x00000007,
0x0000004d, 0x00000041, 0x0004003d, 0x00000007, 0x0000004f, 0x0000004e, 0x0004003d, 0x00000007,
0x00000050, 0x00000045, 0x00050085, 0x00000007, 0x00000051, 0x0000004f, 0x00000050, 0x00050081,
0x00000007, 0x00000052, 0x0000004d, 0x00000051, 0x0003003e, 0x0000004c, 0x00000052, 0x000100fd,
0x00010038,
},
.fragment_spirv = &[_]u32{
0x07230203, 0x00010000, 0x0008000b, 0x00000028, 0x00000000, 0x00020011, 0x00000001, 0x0006000b,
0x00000001, 0x4c534c47, 0x6474732e, 0x3035342e, 0x00000000, 0x0003000e, 0x00000000, 0x00000001,
0x0008000f, 0x00000004, 0x00000004, 0x6e69616d, 0x00000000, 0x00000009, 0x00000016, 0x0000001a,
0x00030010, 0x00000004, 0x00000007, 0x00030003, 0x00000002, 0x000001ae, 0x00040005, 0x00000004,
0x6e69616d, 0x00000000, 0x00040005, 0x00000009, 0x65786574, 0x0000006c, 0x00030005, 0x0000000c,
0x00786574, 0x00030005, 0x00000010, 0x00706d73, 0x00030005, 0x00000016, 0x00007675, 0x00040005,
0x0000001a, 0x6f6c6f63, 0x00000072, 0x00040047, 0x00000009, 0x0000001e, 0x00000000, 0x00040047,
0x0000000c, 0x00000022, 0x00000000, 0x00040047, 0x0000000c, 0x00000021, 0x00000000, 0x00040047,
0x00000010, 0x00000022, 0x00000000, 0x00040047, 0x00000010, 0x00000021, 0x00000000, 0x00040047,
0x00000016, 0x0000001e, 0x00000001, 0x00040047, 0x0000001a, 0x0000001e, 0x00000000, 0x00020013,
0x00000002, 0x00030021, 0x00000003, 0x00000002, 0x00030016, 0x00000006, 0x00000020, 0x00040017,
0x00000007, 0x00000006, 0x00000004, 0x00040020, 0x00000008, 0x00000003, 0x00000007, 0x0004003b,
0x00000008, 0x00000009, 0x00000003, 0x00090019, 0x0000000a, 0x00000006, 0x00000001, 0x00000000,
0x00000000, 0x00000000, 0x00000001, 0x00000000, 0x00040020, 0x0000000b, 0x00000000, 0x0000000a,
0x0004003b, 0x0000000b, 0x0000000c, 0x00000000, 0x0002001a, 0x0000000e, 0x00040020, 0x0000000f,
0x00000000, 0x0000000e, 0x0004003b, 0x0000000f, 0x00000010, 0x00000000, 0x0003001b, 0x00000012,
0x0000000a, 0x00040017, 0x00000014, 0x00000006, 0x00000002, 0x00040020, 0x00000015, 0x00000001,
0x00000014, 0x0004003b, 0x00000015, 0x00000016, 0x00000001, 0x00040020, 0x00000019, 0x00000001,
0x00000007, 0x0004003b, 0x00000019, 0x0000001a, 0x00000001, 0x00040015, 0x0000001d, 0x00000020,
0x00000000, 0x0004002b, 0x0000001d, 0x0000001e, 0x00000003, 0x00040020, 0x0000001f, 0x00000003,
0x00000006, 0x0004002b, 0x00000006, 0x00000022, 0x00000000, 0x00020014, 0x00000023, 0x00050036,
0x00000002, 0x00000004, 0x00000000, 0x00000003, 0x000200f8, 0x00000005, 0x0004003d, 0x0000000a,
0x0000000d, 0x0000000c, 0x0004003d, 0x0000000e, 0x00000011, 0x00000010, 0x00050056, 0x00000012,
0x00000013, 0x0000000d, 0x00000011, 0x0004003d, 0x00000014, 0x00000017, 0x00000016, 0x00050057,
0x00000007, 0x00000018, 0x00000013, 0x00000017, 0x0004003d, 0x00000007, 0x0000001b, 0x0000001a,
0x00050085, 0x00000007, 0x0000001c, 0x00000018, 0x0000001b, 0x0003003e, 0x00000009, 0x0000001c,
0x00050041, 0x0000001f, 0x00000020, 0x00000009, 0x0000001e, 0x0004003d, 0x00000006, 0x00000021,
0x00000020, 0x000500b4, 0x00000023, 0x00000024, 0x00000021, 0x00000022, 0x000300f7, 0x00000026,
0x00000000, 0x000400fa, 0x00000024, 0x00000025, 0x00000026, 0x000200f8, 0x00000025, 0x000100fc,
0x000200f8, 0x00000026, 0x000100fd, 0x00010038,
},
};
};
const Resource = struct {
@ -805,19 +931,19 @@ fn clone_command(self: gfx.Command, arena: *std.heap.ArenaAllocator) std.mem.All
};
}
fn orthographic_projection(left: f32, right: f32, bottom: f32, top: f32, zNear: f32, zFar: f32) Projection {
const width = right - left;
const height = top - bottom;
const depth = zFar - zNear;
return .{
.{2 / width, 0, 0, 0},
.{0, 2 / height, 0, 0},
.{0, 0, -(2 / depth), 0},
.{-((right + left) / width), -((top + bottom) / height), -((zFar + zNear) / depth), 1},
};
}
fn resource_cast(handle: *gfx.Handle) *Resource {
return @ptrCast(@alignCast(handle));
}
fn ortho_projection(left: f32, right: f32, bottom: f32, top: f32, zNear: f32, zFar: f32) default_2d.Mat4 {
var result = default_2d.Mat4{.{1, 0, 0, 0}, .{0, 1, 0, 0}, .{0, 0, 1, 0}, .{0, 0, 0, 1}};
result[0][0] = 2 / (right - left);
result[1][1] = 2 / (top - bottom);
result[2][2] = - 2 / (zFar - zNear);
result[3][0] = - (right + left) / (right - left);
result[3][1] = - (top + bottom) / (top - bottom);
result[3][2] = - (zFar + zNear) / (zFar - zNear);
return result;
}

View File

@ -8,7 +8,7 @@ pub fn bmp_file_desc(
arena: *std.heap.ArenaAllocator,
storage: coral.files.Storage,
path: []const u8,
) gfx.Assets.Format.Error!gfx.Desc {
) gfx.AssetFormat.Error!gfx.Desc {
const header = try storage.read_little(path, 0, extern struct {
type: [2]u8 align (1),
file_size: u32 align (1),

View File

@ -1,60 +0,0 @@
@header pub const Vec2 = @Vector(2, f32)
@header pub const Mat4 = [4]@Vector(4, f32)
@ctype vec2 Vec2
@ctype mat4 Mat4
@vs vs
in vec2 mesh_xy;
in vec2 mesh_uv;
in vec2 instance_xbasis;
in vec2 instance_ybasis;
in vec2 instance_origin;
in vec4 instance_tint;
in float instance_depth;
in vec4 instance_rect;
uniform Projection {
mat4 projection;
};
out vec4 color;
out vec2 uv;
void main() {
// Calculate the world position of the vertex
const vec2 world_position = instance_origin + mesh_xy.x * instance_xbasis + mesh_xy.y * instance_ybasis;
const vec2 projected_position = (projection * vec4(world_position, 0, 1)).xy;
// Set the position of the vertex in clip space
gl_Position = vec4(projected_position, instance_depth, 1.0);
color = instance_tint;
// Calculate the width and height from left, top, right, bottom configuration
const vec2 rect_pos = instance_rect.xy; // left, top
const vec2 rect_size = instance_rect.zw - instance_rect.xy; // right - left, bottom - top
// Calculate the adjusted UV coordinates using the instance_rect
uv = rect_pos + (mesh_uv * rect_size);
}
@end
@fs fs
uniform texture2D tex;
uniform sampler smp;
in vec4 color;
in vec2 uv;
out vec4 texel;
void main() {
texel = texture(sampler2D(tex, smp), uv) * color;
if (texel.a == 0) {
discard;
}
}
@end
@program draw_2d vs fs

View File

@ -0,0 +1,17 @@
#version 430
layout (binding = 0) uniform texture2D tex;
layout (binding = 0) uniform sampler smp;
layout (location = 0) in vec4 color;
layout (location = 1) in vec2 uv;
layout (location = 0) out vec4 texel;
void main() {
texel = texture(sampler2D(tex, smp), uv) * color;
if (texel.a == 0) {
discard;
}
}

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@ -0,0 +1,36 @@
#version 430
layout (location = 0) in vec2 mesh_xy;
layout (location = 1) in vec2 mesh_uv;
layout (location = 2) in vec2 instance_xbasis;
layout (location = 3) in vec2 instance_ybasis;
layout (location = 4) in vec2 instance_origin;
layout (location = 5) in vec4 instance_tint;
layout (location = 6) in float instance_depth;
layout (location = 7) in vec4 instance_rect;
layout (binding = 0) uniform Projection {
mat4 projection_matrix;
};
layout (location = 0) out vec4 color;
layout (location = 1) out vec2 uv;
void main() {
// Calculate the world position of the vertex
const vec2 world_position = instance_origin + mesh_xy.x * instance_xbasis + mesh_xy.y * instance_ybasis;
const vec2 projected_position = (projection_matrix * vec4(world_position, 0, 1)).xy;
// Set the position of the vertex in clip space
gl_Position = vec4(projected_position, instance_depth, 1.0);
color = instance_tint;
// Calculate the width and height from left, top, right, bottom configuration
const vec2 rect_pos = instance_rect.xy; // left, top
const vec2 rect_size = instance_rect.zw - instance_rect.xy; // right - left, bottom - top
// Calculate the adjusted UV coordinates using the instance_rect
uv = rect_pos + (mesh_uv * rect_size);
}

130
src/ona/gfx/spirv.zig Normal file
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@ -0,0 +1,130 @@
const coral = @import("coral");
const ext = @cImport({
@cInclude("spirv-cross/spirv_cross_c.h");
});
const sokol = @import("sokol");
const std = @import("std");
pub const CompileError = std.mem.Allocator.Error || error {
UnsupportedTarget,
InvalidSpirV,
UnsupportedSpirv,
UnknownFailure,
};
pub const Sources = struct {
vertex_spirv: []const u32,
fragment_spirv: []const u32,
};
pub fn compile(arena: *std.heap.ArenaAllocator, sources: Sources) CompileError!sokol.gfx.ShaderDesc {
var context = @as(ext.spvc_context, null);
try switch (ext.spvc_context_create(&context)) {
ext.SPVC_ERROR_OUT_OF_MEMORY => error.OutOfMemory,
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
ext.spvc_context_set_error_callback(context, log_errors, null);
defer ext.spvc_context_destroy(context);
const arena_allocator = arena.allocator();
const shader_source_sentinel = @as(u8, 0);
return .{
.vs = .{
.source = try arena_allocator.dupeZ(u8, coral.io.slice_sentineled(
shader_source_sentinel,
@ptrCast(try compile_shader(context, ext.SpvExecutionModelVertex, sources.vertex_spirv)))),
},
.fs = .{
.source = try arena_allocator.dupeZ(u8, coral.io.slice_sentineled(
shader_source_sentinel,
@ptrCast(try compile_shader(context, ext.SpvExecutionModelFragment, sources.fragment_spirv)))),
},
};
}
fn compile_shader(context: ext.spvc_context, model: ext.SpvExecutionModel, spirv: []const u32) CompileError![*]const u8 {
var parsed_ir = @as(ext.spvc_parsed_ir, null);
try switch (ext.spvc_context_parse_spirv(context, spirv.ptr, spirv.len, &parsed_ir)) {
ext.SPVC_ERROR_OUT_OF_MEMORY => error.OutOfMemory,
ext.SPVC_ERROR_INVALID_SPIRV => error.InvalidSpirV,
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
var compiler = @as(ext.spvc_compiler, null);
try switch (ext.spvc_context_create_compiler(context, ext.SPVC_BACKEND_GLSL, parsed_ir, ext.SPVC_CAPTURE_MODE_TAKE_OWNERSHIP, &compiler)) {
ext.SPVC_ERROR_OUT_OF_MEMORY => error.OutOfMemory,
ext.SPVC_ERROR_INVALID_ARGUMENT => error.UnsupportedTarget,
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
try switch (ext.spvc_compiler_build_combined_image_samplers(compiler)) {
ext.SPVC_ERROR_UNSUPPORTED_SPIRV => error.UnsupportedSpirv,
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
try switch (ext.spvc_compiler_set_entry_point(compiler, "main", model)) {
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
var options = @as(ext.spvc_compiler_options, null);
try switch (ext.spvc_compiler_create_compiler_options(compiler, &options)) {
ext.SPVC_ERROR_OUT_OF_MEMORY => error.OutOfMemory,
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
try switch (ext.spvc_compiler_options_set_uint(options, ext.SPVC_COMPILER_OPTION_GLSL_VERSION, 430)) {
ext.SPVC_ERROR_INVALID_ARGUMENT => error.InvalidSpirV,
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
try switch (ext.spvc_compiler_options_set_bool(options, ext.SPVC_COMPILER_OPTION_GLSL_ES, @intFromBool(false))) {
ext.SPVC_ERROR_INVALID_ARGUMENT => error.InvalidSpirV,
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
try switch (ext.spvc_compiler_options_set_bool(options, ext.SPVC_COMPILER_OPTION_GLSL_VULKAN_SEMANTICS, @intFromBool(false))) {
ext.SPVC_ERROR_INVALID_ARGUMENT => error.InvalidSpirV,
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
try switch (ext.spvc_compiler_install_compiler_options(compiler, options)) {
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
var source = @as([*]const u8, undefined);
try switch (ext.spvc_compiler_compile(compiler, @ptrCast(&source))) {
ext.SPVC_ERROR_OUT_OF_MEMORY => error.OutOfMemory,
ext.SPVC_ERROR_UNSUPPORTED_SPIRV => error.UnsupportedSpirv,
ext.SPVC_SUCCESS => {},
else => error.UnknownFailure,
};
return source;
}
fn log_errors(userdata: ?*anyopaque, error_message: [*c]const u8) callconv(.C) void {
std.debug.assert(userdata == null);
std.log.err("{s}", .{error_message});
}

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@ -2,6 +2,8 @@ const App = @import("./App.zig");
const coral = @import("coral");
const flow = @import("flow");
const std = @import("std");
fn Channel(comptime Message: type) type {
@ -12,7 +14,7 @@ fn Channel(comptime Message: type) type {
const Self = @This();
fn cleanup(channel: coral.Write(Self)) void {
fn cleanup(channel: flow.Write(Self)) void {
channel.res.deinit();
}
@ -24,7 +26,7 @@ fn Channel(comptime Message: type) type {
self.* = undefined;
}
fn swap(channel: coral.Write(Self)) void {
fn swap(channel: flow.Write(Self)) void {
channel.res.ticks = coral.scalars.add(channel.res.ticks, 1) orelse 0;
if (channel.res.ticks == 0) {
@ -65,12 +67,12 @@ pub fn Receive(comptime Message: type) type {
channel: *const TypedChannel,
};
pub fn bind(context: coral.system.BindContext) std.mem.Allocator.Error!State {
pub fn bind(context: flow.system.BindContext) std.mem.Allocator.Error!State {
return .{
.channel = (try context.register_read_only_resource_access(thread_restriction, TypedChannel)) orelse set: {
try context.world.set_resource(thread_restriction, TypedChannel.init(coral.heap.allocator));
.channel = (try context.register_readable_resource_access(TypedChannel)) orelse set: {
try context.world.set_resource(TypedChannel.init(coral.heap.allocator));
break: set (try context.register_read_only_resource_access(thread_restriction, TypedChannel)).?;
break: set (try context.register_readable_resource_access(TypedChannel)).?;
},
};
}
@ -99,22 +101,22 @@ pub fn Send(comptime Message: type) type {
channel: *TypedChannel,
};
pub fn bind(context: coral.system.BindContext) std.mem.Allocator.Error!State {
pub fn bind(context: flow.system.BindContext) std.mem.Allocator.Error!State {
return .{
.channel = (try context.register_read_write_resource_access(thread_restriction, TypedChannel)) orelse set: {
try context.world.set_resource(thread_restriction, TypedChannel.init(coral.heap.allocator));
.channel = (try context.register_writable_resource_access(TypedChannel)) orelse set: {
try context.world.set_resource(TypedChannel.init(coral.heap.allocator));
const app = context.world.get_resource(.none, App).?;
const app = context.world.get_resource(App).?;
try context.world.on_event(app.events.post_update, coral.system_fn(TypedChannel.swap), .{
try context.world.on_event(app.events.post_update, flow.system_fn(TypedChannel.swap), .{
.label = "swap channel of " ++ @typeName(Message),
});
try context.world.on_event(app.events.exit, coral.system_fn(TypedChannel.cleanup), .{
try context.world.on_event(app.events.exit, flow.system_fn(TypedChannel.cleanup), .{
.label = "clean up channel of " ++ @typeName(Message),
});
break: set (try context.register_read_write_resource_access(thread_restriction, TypedChannel)).?;
break: set (try context.register_writable_resource_access(TypedChannel)).?;
},
};
}
@ -130,5 +132,3 @@ pub fn Send(comptime Message: type) type {
}
};
}
const thread_restriction = coral.World.ThreadRestriction.none;

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@ -6,6 +6,8 @@ const coral = @import("coral");
const ext = @import("./ext.zig");
const flow = @import("flow");
pub const gfx = @import("./gfx.zig");
pub const msg = @import("./msg.zig");
@ -23,7 +25,13 @@ pub const Options = struct {
};
};
pub const Setup = fn (*coral.World, App.Events) anyerror!void;
pub const Read = flow.Read;
pub const Setup = fn (*flow.World, App.Events) anyerror!void;
pub const World = flow.World;
pub const Write = flow.Write;
pub const default_middlewares = &.{
gfx.setup,
@ -37,7 +45,7 @@ pub fn start_app(setup: Setup, options: Options) anyerror!void {
}
var world = try switch (options.execution) {
.single_threaded => coral.World.init(0),
.single_threaded => flow.World.init(0),
.thread_share => |thread_share| init: {
const cpu_count = @as(u32, @intCast(std.math.clamp(std.Thread.getCpuCount() catch |cpu_count_error| {
@ -48,7 +56,7 @@ pub fn start_app(setup: Setup, options: Options) anyerror!void {
});
}, 0, std.math.maxInt(u32))));
break: init coral.World.init(coral.scalars.fractional(cpu_count, thread_share) orelse 0);
break: init flow.World.init(coral.scalars.fractional(cpu_count, thread_share) orelse 0);
},
};
@ -64,7 +72,7 @@ pub fn start_app(setup: Setup, options: Options) anyerror!void {
.exit = try world.create_event("exit"),
};
const app = try world.set_get_resource(.none, App{
const app = try world.set_get_resource(App{
.events = &events,
.target_frame_time = 1.0 / @as(f64, @floatFromInt(options.tick_rate)),
.is_running = true,
@ -101,3 +109,5 @@ pub fn start_app(setup: Setup, options: Options) anyerror!void {
try world.run_event(events.exit);
}
pub const system_fn = flow.system_fn;

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