Commit de6df2bc12
src/codegen/spirv.zig
@@ -6,6 +6,7 @@ const spec = @import("spirv/spec.zig");
const Module = @import("../Module.zig");
const Decl = Module.Decl;
const Type = @import("../type.zig").Type;
+const LazySrcLoc = Module.LazySrcLoc;
pub const TypeMap = std.HashMap(Type, u32, Type.hash, Type.eql, std.hash_map.default_max_load_percentage);
@@ -15,30 +16,24 @@ pub fn writeInstruction(code: *std.ArrayList(u32), instr: spec.Opcode, args: []c
try code.appendSlice(args);
}
+/// This structure represents a SPIR-V binary module being compiled, and keeps track of relevant information
+/// such as code for the different logical sections, and the next result-id.
pub const SPIRVModule = struct {
- next_result_id: u32 = 0,
-
- target: std.Target,
-
- types: TypeMap,
-
+ next_result_id: u32,
types_and_globals: std.ArrayList(u32),
fn_decls: std.ArrayList(u32),
- pub fn init(target: std.Target, allocator: *Allocator) SPIRVModule {
+ pub fn init(allocator: *Allocator) SPIRVModule {
return .{
- .target = target,
- .types = TypeMap.init(allocator),
+ .next_result_id = 0,
.types_and_globals = std.ArrayList(u32).init(allocator),
.fn_decls = std.ArrayList(u32).init(allocator),
};
}
pub fn deinit(self: *SPIRVModule) void {
- self.fn_decls.deinit();
self.types_and_globals.deinit();
- self.types.deinit();
- self.* = undefined;
+ self.fn_decls.deinit();
}
pub fn allocResultId(self: *SPIRVModule) u32 {
@@ -49,21 +44,40 @@ pub const SPIRVModule = struct {
pub fn resultIdBound(self: *SPIRVModule) u32 {
return self.next_result_id;
}
+};
+
+/// This structure is used to compile a declaration, and contains all relevant meta-information to deal with that.
+pub const DeclGen = struct {
+ module: *Module,
+ spv: *SPIRVModule,
+
+ types: TypeMap,
+
+ decl: *Decl,
+ error_msg: ?*Module.ErrorMsg,
+
+ fn fail(self: *DeclGen, src: LazySrcLoc, comptime format: []const u8, args: anytype) error{ AnalysisFail, OutOfMemory } {
+ @setCold(true);
+ const src_loc = src.toSrcLocWithDecl(self.decl);
+ self.error_msg = try Module.ErrorMsg.create(self.module.gpa, src_loc, format, args);
+ return error.AnalysisFail;
+ }
- pub fn getOrGenType(self: *SPIRVModule, t: Type) !u32 {
+ pub fn getOrGenType(self: *DeclGen, t: Type) !u32 {
// We can't use getOrPut here so we can recursively generate types.
if (self.types.get(t)) |already_generated| {
return already_generated;
}
- const result = self.allocResultId();
+ const result = self.spv.allocResultId();
switch (t.zigTypeTag()) {
- .Void => try writeInstruction(&self.types_and_globals, .OpTypeVoid, &[_]u32{ result }),
- .Bool => try writeInstruction(&self.types_and_globals, .OpTypeBool, &[_]u32{ result }),
+ .Void => try writeInstruction(&self.spv.types_and_globals, .OpTypeVoid, &[_]u32{ result }),
+ .Bool => try writeInstruction(&self.spv.types_and_globals, .OpTypeBool, &[_]u32{ result }),
.Int => {
- const int_info = t.intInfo(self.target);
- try writeInstruction(&self.types_and_globals, .OpTypeInt, &[_]u32{
+ const int_info = t.intInfo(self.module.getTarget());
+ // TODO: Capabilities.
+ try writeInstruction(&self.spv.types_and_globals, .OpTypeInt, &[_]u32{
result,
int_info.bits,
switch (int_info.signedness) {
@@ -72,8 +86,8 @@ pub const SPIRVModule = struct {
},
});
},
- // TODO: Verify that floatBits() will be correct.
- .Float => try writeInstruction(&self.types_and_globals, .OpTypeFloat, &[_]u32{ result, t.floatBits(self.target) }),
+ // TODO: Capabilities.
+ .Float => try writeInstruction(&self.spv.types_and_globals, .OpTypeFloat, &[_]u32{ result, t.floatBits(self.module.getTarget()) }),
.Null,
.Undefined,
.EnumLiteral,
@@ -84,23 +98,23 @@ pub const SPIRVModule = struct {
.BoundFn => unreachable, // this type will be deleted from the language.
- else => return error.TODO,
+ else => |tag| return self.fail(.{ .node_offset = 0 }, "TODO: SPIR-V backend: implement type with tag {}", .{ tag }),
}
try self.types.put(t, result);
return result;
}
- pub fn gen(self: *SPIRVModule, decl: *Decl) !void {
- const typed_value = decl.typed_value.most_recent.typed_value;
+ pub fn gen(self: *DeclGen) !void {
+ const typed_value = self.decl.typed_value.most_recent.typed_value;
switch (typed_value.ty.zigTypeTag()) {
.Fn => {
- log.debug("Generating code for function '{s}'", .{ std.mem.spanZ(decl.name) });
+ log.debug("Generating code for function '{s}'", .{ std.mem.spanZ(self.decl.name) });
_ = try self.getOrGenType(typed_value.ty.fnReturnType());
},
- else => return error.TODO,
+ else => |tag| return self.fail(.{ .node_offset = 0 }, "TODO: SPIR-V backend: generate decl with tag {}", .{ tag }),
}
}
};
src/link/SpirV.zig
@@ -118,8 +118,8 @@ pub fn flushModule(self: *SpirV, comp: *Compilation) !void {
const module = self.base.options.module.?;
const target = comp.getTarget();
- var spirv_module = codegen.SPIRVModule.init(target, self.base.allocator);
- defer spirv_module.deinit();
+ var spv = codegen.SPIRVModule.init(self.base.allocator);
+ defer spv.deinit();
// Allocate an ID for every declaration before generating code,
// so that we can access them before processing them.
@@ -132,19 +132,41 @@ pub fn flushModule(self: *SpirV, comp: *Compilation) !void {
if (decl.typed_value != .most_recent)
continue;
- decl.fn_link.spirv.id = spirv_module.allocResultId();
+ decl.fn_link.spirv.id = spv.allocResultId();
log.debug("Allocating id {} to '{s}'", .{ decl.fn_link.spirv.id, std.mem.spanZ(decl.name) });
}
}
// Now, actually generate the code for all declarations.
{
+ // We are just going to re-use this same DeclGen for every Decl, and we are just going to
+ // change the decl. Otherwise, we would have to keep a separate `types`, and re-construct this
+ // structure every time.
+ var decl_gen = codegen.DeclGen{
+ .module = module,
+ .spv = &spv,
+ .types = codegen.TypeMap.init(self.base.allocator),
+ .decl = undefined,
+ .error_msg = undefined,
+ };
+
+ defer decl_gen.types.deinit();
+
for (module.decl_table.items()) |entry| {
const decl = entry.value;
if (decl.typed_value != .most_recent)
continue;
- try spirv_module.gen(decl);
+ decl_gen.decl = decl;
+ decl_gen.error_msg = null;
+
+ decl_gen.gen() catch |err| switch (err) {
+ error.AnalysisFail => {
+ try module.failed_decls.put(module.gpa, decl, decl_gen.error_msg.?);
+ return;
+ },
+ else => |e| return e,
+ };
}
}
@@ -155,7 +177,7 @@ pub fn flushModule(self: *SpirV, comp: *Compilation) !void {
spec.magic_number,
(spec.version.major << 16) | (spec.version.minor << 8),
0, // TODO: Register Zig compiler magic number.
- spirv_module.resultIdBound(), // ID bound.
+ spv.resultIdBound(), // ID bound.
0, // Schema (currently reserved for future use in the SPIR-V spec).
});
@@ -166,8 +188,8 @@ pub fn flushModule(self: *SpirV, comp: *Compilation) !void {
// follows the SPIR-V logical module format!
var all_buffers = [_]std.os.iovec_const{
wordsToIovConst(binary.items),
- wordsToIovConst(spirv_module.types_and_globals.items),
- wordsToIovConst(spirv_module.fn_decls.items),
+ wordsToIovConst(spv.types_and_globals.items),
+ wordsToIovConst(spv.fn_decls.items),
};
const file = self.base.file.?;