Ekdohibs/zig
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
zig/src-self-hosted/codegen/c.zig
Andrew Kelley aac6e8c418 self-hosted: AST flattening, astgen improvements, result locations, and more 
* AST: flatten ControlFlowExpression into Continue, Break, and Return.
 * AST: unify identifiers and literals into the same AST type: OneToken
 * AST: ControlFlowExpression uses TrailerFlags to optimize storage
   space.
 * astgen: support `var` as well as `const` locals, and support
   explicitly typed locals. Corresponding Module and codegen code is not
   implemented yet.
 * astgen: support result locations.
 * ZIR: add the following instructions (see the corresponding doc
   comments for explanations of semantics):
   - alloc
   - alloc_inferred
   - bitcast_result_ptr
   - coerce_result_block_ptr
   - coerce_result_ptr
   - coerce_to_ptr_elem
   - ensure_result_used
   - ensure_result_non_error
   - ret_ptr
   - ret_type
   - store
   - param_type
 * the skeleton structure for result locations is set up. It's looking
   pretty clean so far.
 * add compile error for unused result and compile error for discarding
   errors.
 * astgen: split builtin calls up to implemented manually, and implement
   `@as`, `@bitCast` (and others) with respect to result locations.
 * add CLI support for hex and raw object formats. They are not
   supported by the self-hosted compiler yet, and emit errors.
 * rename `--c` CLI to `-ofmt=[objectformat]` which can be any of the
   object formats. Only ELF and C are supported so far. Also added missing
   help to the help text.
 * Remove hard tabs from C backend test cases. Shame on you Noam, you
   are grounded, you should know better, etc. Bad boy.
 * Delete C backend code and test case that relied on comptime_int
   incorrectly making it all the way to codegen.
2020-07-23 23:05:26 -07:00

192 lines
7.2 KiB
Zig
Raw Blame History

const std = @import("std");
const link = @import("../link.zig");
const Module = @import("../Module.zig");
const Inst = @import("../ir.zig").Inst;
const Value = @import("../value.zig").Value;
const Type = @import("../type.zig").Type;
const C = link.File.C;
const Decl = Module.Decl;
const mem = std.mem;
/// Maps a name from Zig source to C. This will always give the same output for
/// any given input.
fn map(allocator: *std.mem.Allocator, name: []const u8) ![]const u8 {
return allocator.dupe(u8, name);
}
fn renderType(file: *C, writer: std.ArrayList(u8).Writer, T: Type, src: usize) !void {
if (T.tag() == .usize) {
file.need_stddef = true;
try writer.writeAll("size_t");
} else {
switch (T.zigTypeTag()) {
.NoReturn => {
file.need_noreturn = true;
try writer.writeAll("noreturn void");
},
.Void => try writer.writeAll("void"),
.Int => {
if (T.tag() == .u8) {
file.need_stdint = true;
try writer.writeAll("uint8_t");
} else {
return file.fail(src, "TODO implement int types", .{});
}
},
else => |e| return file.fail(src, "TODO implement type {}", .{e}),
}
}
}
fn renderFunctionSignature(file: *C, writer: std.ArrayList(u8).Writer, decl: *Decl) !void {
const tv = decl.typed_value.most_recent.typed_value;
try renderType(file, writer, tv.ty.fnReturnType(), decl.src());
const name = try map(file.allocator, mem.spanZ(decl.name));
defer file.allocator.free(name);
try writer.print(" {}(", .{name});
if (tv.ty.fnParamLen() == 0)
try writer.writeAll("void)")
else
return file.fail(decl.src(), "TODO implement parameters", .{});
}
pub fn generate(file: *C, decl: *Decl) !void {
switch (decl.typed_value.most_recent.typed_value.ty.zigTypeTag()) {
.Fn => try genFn(file, decl),
.Array => try genArray(file, decl),
else => |e| return file.fail(decl.src(), "TODO {}", .{e}),
}
}
fn genArray(file: *C, decl: *Decl) !void {
const tv = decl.typed_value.most_recent.typed_value;
// TODO: prevent inline asm constants from being emitted
const name = try map(file.allocator, mem.span(decl.name));
defer file.allocator.free(name);
if (tv.val.cast(Value.Payload.Bytes)) |payload|
if (tv.ty.arraySentinel()) |sentinel|
if (sentinel.toUnsignedInt() == 0)
try file.constants.writer().print("const char *const {} = \"{}\";\n", .{ name, payload.data })
else
return file.fail(decl.src(), "TODO byte arrays with non-zero sentinels", .{})
else
return file.fail(decl.src(), "TODO byte arrays without sentinels", .{})
else
return file.fail(decl.src(), "TODO non-byte arrays", .{});
}
fn genFn(file: *C, decl: *Decl) !void {
const writer = file.main.writer();
const tv = decl.typed_value.most_recent.typed_value;
try renderFunctionSignature(file, writer, decl);
try writer.writeAll(" {");
const func: *Module.Fn = tv.val.cast(Value.Payload.Function).?.func;
const instructions = func.analysis.success.instructions;
if (instructions.len > 0) {
for (instructions) |inst| {
try writer.writeAll("\n ");
switch (inst.tag) {
.assembly => try genAsm(file, inst.castTag(.assembly).?, decl),
.call => try genCall(file, inst.castTag(.call).?, decl),
.ret => try genRet(file, inst.castTag(.ret).?, decl, tv.ty.fnReturnType()),
.retvoid => try file.main.writer().print("return;", .{}),
else => |e| return file.fail(decl.src(), "TODO implement C codegen for {}", .{e}),
}
}
try writer.writeAll("\n");
}
try writer.writeAll("}\n\n");
}
fn genRet(file: *C, inst: *Inst.UnOp, decl: *Decl, expected_return_type: Type) !void {
return file.fail(decl.src(), "TODO return {}", .{expected_return_type});
}
fn genCall(file: *C, inst: *Inst.Call, decl: *Decl) !void {
const writer = file.main.writer();
const header = file.header.writer();
if (inst.func.castTag(.constant)) |func_inst| {
if (func_inst.val.cast(Value.Payload.Function)) |func_val| {
const target = func_val.func.owner_decl;
const target_ty = target.typed_value.most_recent.typed_value.ty;
const ret_ty = target_ty.fnReturnType().tag();
if (target_ty.fnReturnType().hasCodeGenBits() and inst.base.isUnused()) {
try writer.print("(void)", .{});
}
const tname = mem.spanZ(target.name);
if (file.called.get(tname) == null) {
try file.called.put(tname, void{});
try renderFunctionSignature(file, header, target);
try header.writeAll(";\n");
}
try writer.print("{}();", .{tname});
} else {
return file.fail(decl.src(), "TODO non-function call target?", .{});
}
if (inst.args.len != 0) {
return file.fail(decl.src(), "TODO function arguments", .{});
}
} else {
return file.fail(decl.src(), "TODO non-constant call inst?", .{});
}
}
fn genAsm(file: *C, as: *Inst.Assembly, decl: *Decl) !void {
const writer = file.main.writer();
for (as.inputs) |i, index| {
if (i[0] == '{' and i[i.len - 1] == '}') {
const reg = i[1 .. i.len - 1];
const arg = as.args[index];
if (arg.castTag(.constant)) |c| {
if (c.val.tag() == .int_u64) {
try writer.writeAll("register ");
try renderType(file, writer, arg.ty, decl.src());
try writer.print(" {}_constant __asm__(\"{}\") = {};\n ", .{ reg, reg, c.val.toUnsignedInt() });
} else {
return file.fail(decl.src(), "TODO inline asm {} args", .{c.val.tag()});
}
} else {
return file.fail(decl.src(), "TODO non-constant inline asm args", .{});
}
} else {
return file.fail(decl.src(), "TODO non-explicit inline asm regs", .{});
}
}
try writer.print("__asm {} (\"{}\"", .{ if (as.is_volatile) @as([]const u8, "volatile") else "", as.asm_source });
if (as.output) |o| {
return file.fail(decl.src(), "TODO inline asm output", .{});
}
if (as.inputs.len > 0) {
if (as.output == null) {
try writer.writeAll(" :");
}
try writer.writeAll(": ");
for (as.inputs) |i, index| {
if (i[0] == '{' and i[i.len - 1] == '}') {
const reg = i[1 .. i.len - 1];
const arg = as.args[index];
if (index > 0) {
try writer.writeAll(", ");
}
if (arg.castTag(.constant)) |c| {
try writer.print("\"\"({}_constant)", .{reg});
} else {
// This is blocked by the earlier test
unreachable;
}
} else {
// This is blocked by the earlier test
unreachable;
}
}
}
try writer.writeAll(");");
}
Reference in New Issue View Git Blame Copy Permalink