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Use @Type(.Opaque) for opaque types, render more stuff

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This commit is contained in:
Robin Voetter
2020-06-09 01:39:55 +02:00
parent 687e1dd300
commit c2974a16e6
2 changed files with 119 additions and 42 deletions
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2
generator/registry.zig
View File

@@ -93,7 +93,7 @@ pub const Registry = struct {
return null; return null;
} }
fn dump(self: *Registry) void { pub fn dump(self: *Registry) void {
const indent = " " ** 4; const indent = " " ** 4;
{ {

159
generator/render.zig
View File

@@ -13,20 +13,20 @@ const ForeignType = struct {
}; };
const foreign_types = [_]ForeignType{ const foreign_types = [_]ForeignType{
.{.name = "Display", .expr = "Type(.Opaque)"}, .{.name = "Display", .expr = "@Type(.Opaque)"},
.{.name = "VisualID", .expr = @typeName(c_uint)}, .{.name = "VisualID", .expr = @typeName(c_uint)},
.{.name = "Window", .expr = @typeName(c_ulong)}, .{.name = "Window", .expr = @typeName(c_ulong)},
.{.name = "RROutput", .expr = @typeName(c_ulong)}, .{.name = "RROutput", .expr = @typeName(c_ulong)},
.{.name = "wl_display", .expr = "@Type(.Opaque)"}, .{.name = "wl_display", .expr = "@Type(.Opaque)"},
.{.name = "wl_surface", .expr = "@Type(.Opaque)"}, .{.name = "wl_surface", .expr = "@Type(.Opaque)"},
.{.name = "HINSTANCE", .expr = "std.os.HINSTANCE"}, .{.name = "HINSTANCE", .expr = "u32; //std.os.HINSTANCE"},
.{.name = "HWND", .expr = "*@OpaqueType()"}, .{.name = "HWND", .expr = "*@Type(.Opaque)"},
.{.name = "HMONITOR", .expr = "*OpaqueType()"}, .{.name = "HMONITOR", .expr = "*@Type(.Opaque)"},
.{.name = "HANDLE", .expr = "std.os.HANDLE"}, .{.name = "HANDLE", .expr = "u32; //std.os.HANDLE"},
.{.name = "SECURITY_ATTRIBUTES", .expr = "std.os.SECURITY_ATTRIBUTES"}, .{.name = "SECURITY_ATTRIBUTES", .expr = "u32; //std.os.SECURITY_ATTRIBUTES"},
.{.name = "DWORD", .expr = "std.os.DWORD"}, .{.name = "DWORD", .expr = "u32; //std.os.DWORD"},
.{.name = "LPCWSTR", .expr = "std.os.LPCWSTR"}, .{.name = "LPCWSTR", .expr = "u32; //std.os.LPCWSTR"},
.{.name = "xcb_connection_t", .expr = "@OpaqueType()"}, .{.name = "xcb_connection_t", .expr = "@Type(.Opaque)"},
.{.name = "xcb_visualid_t", .expr = @typeName(u32)}, .{.name = "xcb_visualid_t", .expr = @typeName(u32)},
.{.name = "xcb_window_t", .expr = @typeName(u32)}, .{.name = "xcb_window_t", .expr = @typeName(u32)},
.{.name = "zx_handle_t", .expr = @typeName(u32)}, .{.name = "zx_handle_t", .expr = @typeName(u32)},
@@ -45,6 +45,7 @@ const BuiltinType = struct {
}; };
const builtin_types = [_]BuiltinType{ const builtin_types = [_]BuiltinType{
.{.c_name = "void", .zig_name = @typeName(void)},
.{.c_name = "char", .zig_name = @typeName(u8)}, .{.c_name = "char", .zig_name = @typeName(u8)},
.{.c_name = "float", .zig_name = @typeName(f32)}, .{.c_name = "float", .zig_name = @typeName(f32)},
.{.c_name = "double", .zig_name = @typeName(f64)}, .{.c_name = "double", .zig_name = @typeName(f64)},
@@ -59,7 +60,7 @@ const builtin_types = [_]BuiltinType{
}; };
pub fn render(out: var, registry: *Registry) !void { pub fn render(out: var, registry: *Registry) !void {
try out.writeAll("const std = @import(\"std\");\n\n"); try out.writeAll("const std = @import(\"std\");\n");
try renderApiConstants(out, registry); try renderApiConstants(out, registry);
try renderForeignTypes(out); try renderForeignTypes(out);
try out.writeAll("\n"); try out.writeAll("\n");
@@ -144,10 +145,35 @@ fn writeIdentifier(out: var, name: []const u8) !void {
} }
} }
const Identifier = struct {
name: []const u8,
fn init(name: []const u8) Identifier {
return .{.name = name};
}
fn needEscape(self: Identifier) bool {
return !isValidZigIdentifier(self.name)
or isZigReservedIdentifier(self.name)
or std.zig.Token.getKeyword(self.name) != null;
}
pub fn format(
self: Identifier,
fmt: []const u8,
options: std.fmt.FormatOptions,
out_stream: var
) @TypeOf(out_stream).Error!void {
if (self.needEscape()){
try out_stream.print("@\"{}\"", .{self.name});
} else {
try out_stream.writeAll(self.name);
}
}
};
fn writeConstAssignmemt(out: var, name: []const u8) !void { fn writeConstAssignmemt(out: var, name: []const u8) !void {
try out.writeAll("pub const "); try out.print("pub const {} = ", .{Identifier.init(name)});
try writeIdentifier(out, name);
try out.writeAll(" = ");
} }
fn eqlIgnoreCase(lhs: []const u8, rhs: []const u8) bool { fn eqlIgnoreCase(lhs: []const u8, rhs: []const u8) bool {
@@ -165,6 +191,10 @@ fn eqlIgnoreCase(lhs: []const u8, rhs: []const u8) bool {
} }
fn renderTypeInfo(out: var, registry: *Registry, type_info: reg.TypeInfo) !void { fn renderTypeInfo(out: var, registry: *Registry, type_info: reg.TypeInfo) !void {
// If the type is a `void*`, it needs to be translated to `*c_void`.
// If its not a pointer, its a return type, so `void` should be emitted.
const is_void_ptr = mem.eql(u8, type_info.name, "void") and type_info.pointers.len > 0;
if (type_info.array_size) |array_size| { if (type_info.array_size) |array_size| {
try out.print("[{}]", .{trimNamespace(array_size)}); try out.print("[{}]", .{trimNamespace(array_size)});
} }
@@ -174,7 +204,10 @@ fn renderTypeInfo(out: var, registry: *Registry, type_info: reg.TypeInfo) !void
// is considered optional // is considered optional
switch (ptr.size) { switch (ptr.size) {
.One => try out.writeAll("?*"), .One => try out.writeAll("?*"),
.Many => try out.writeAll("?[*]"), .Many => if (is_void_ptr)
try out.writeAll("?*")
else
try out.writeAll("?[*]"),
.ZeroTerminated => try out.writeAll("?[*:0]") .ZeroTerminated => try out.writeAll("?[*:0]")
} }
@@ -183,6 +216,11 @@ fn renderTypeInfo(out: var, registry: *Registry, type_info: reg.TypeInfo) !void
} }
} }
if (is_void_ptr) {
try out.writeAll("c_void");
return;
}
// If the type is foreign, add the appropriate namespace specifier // If the type is foreign, add the appropriate namespace specifier
for (foreign_types) |fty| { for (foreign_types) |fty| {
if (mem.eql(u8, type_info.name, fty.name)) { if (mem.eql(u8, type_info.name, fty.name)) {
@@ -199,24 +237,16 @@ fn renderTypeInfo(out: var, registry: *Registry, type_info: reg.TypeInfo) !void
} }
} }
// If the type is a `void*`, it needs to be translated to `*c_void`. // Make sure the type is defined by Vulkan otherwise
// If its not a pointer, its a return type, so `void` should be emitted. if (registry.findDefinitionByName(type_info.name)) |def| {
if (mem.eql(u8, type_info.name, "void")) { if (def.* == .FnPtr) {
if (type_info.pointers.len > 0) { try out.writeAll("PFN_");
try out.writeAll("c_void");
} else {
try out.writeAll("void");
} }
return; try writeIdentifier(out, trimNamespace(type_info.name));
} } else {
// Make sure the type is defined by Vulkan otherwise
if (registry.findDefinitionByName(type_info.name) == null) {
return error.InvalidType; return error.InvalidType;
} }
try writeIdentifier(out, trimNamespace(type_info.name));
} }
fn renderApiConstantExpr(out: var, constant_expr: []const u8) !void { fn renderApiConstantExpr(out: var, constant_expr: []const u8) !void {
@@ -304,24 +334,67 @@ fn renderForeignTypes(out: var) !void {
fn renderDeclarations(out: var, registry: *Registry) !void { fn renderDeclarations(out: var, registry: *Registry) !void {
var it = registry.declarations.iterator(0); var it = registry.declarations.iterator(0);
while (it.next()) |decl| { while (it.next()) |decl| {
if (decl.definition == .Command) continue; // handled seperately
switch (decl.definition) { switch (decl.definition) {
.Enum => |*info| try renderEnum(out, decl.name, info),
// .Alias => |alias| try renderAlias(out, registry, decl.name, alias),
.FnPtr => |*info| try renderFnPtr(out, registry, decl.name, info),
.Struct => |*info| try renderContainer(out, registry, .Struct, decl.name, info), .Struct => |*info| try renderContainer(out, registry, .Struct, decl.name, info),
.Union => |*info| try renderContainer(out, registry, .Union, decl.name, info), .Union => |*info| try renderContainer(out, registry, .Union, decl.name, info),
.Enum => |*info| try renderEnum(out, decl.name, info),
.Bitmask => |*info| try renderBitmask(out, decl.name, info),
.Handle => |*info| try renderHandle(out, decl.name, info),
.FnPtr => |*info| try renderFnPtr(out, registry, decl.name, info),
.Command => |*info| try renderCommand(out, registry, decl.name, info),
.Alias => |alias| try renderAlias(out, registry, decl.name, alias),
.BaseType => |type_info| { .BaseType => |type_info| {
try writeConstAssignmemt(out, trimNamespace(decl.name)); try writeConstAssignmemt(out, trimNamespace(decl.name));
try renderTypeInfo(out, registry, type_info); try renderTypeInfo(out, registry, type_info);
try out.writeAll(";\n\n"); try out.writeAll(";\n");
}, },
else => {}
} }
} }
} }
fn renderCommand(out: var, registry: *Registry, name: []const u8, info: *reg.CommandInfo) !void {
try out.writeAll("extern fn ");
try writeIdentifier(out, name);
try out.writeAll("(");
if (info.parameters.count() > 0) {
try out.writeAll("\n");
var it = info.parameters.iterator(0);
while (it.next()) |param| {
try out.writeAll(base_indent);
try writeIdentifier(out, param.name);
try out.writeAll(": ");
try renderTypeInfo(out, registry, param.type_info);
try out.writeAll(",\n");
}
}
try out.writeAll(") callconv(.C) ");
try renderTypeInfo(out, registry, info.return_type_info);
try out.writeAll(";\n\n");
// var buf: [256]u8 = undefined;
// const trimmed = trimNamespace(name);
// mem.copy(u8, &buf, trimNamespace(name));
// buf[0] = std.ascii.toLower(buf[0]);
// try writeConstAssignmemt(out, buf[0 .. trimmed.len]);
// try writeIdentifier(out, name);
// try out.writeAll(";\n");
}
fn renderHandle(out: var, name: []const u8, info: *const reg.HandleInfo) !void {
try writeConstAssignmemt(out, trimNamespace(name));
// Todo: (non)-dispatchable
try out.writeAll("*@Type(.Opaque);\n");
}
fn renderBitmask(out: var, name: []const u8, info: *const reg.BitmaskInfo) !void {
try writeConstAssignmemt(out, trimNamespace(name));
try out.writeAll("Flags;\n");
}
fn shouldSkipEnum(enum_info: *reg.EnumInfo) bool { fn shouldSkipEnum(enum_info: *reg.EnumInfo) bool {
// Skip empty declarations (which are unused bitflags) // Skip empty declarations (which are unused bitflags)
return enum_info.variants.count() == 0; return enum_info.variants.count() == 0;
@@ -367,7 +440,7 @@ fn renderEnum(out: var, name: []const u8, enum_info: *reg.EnumInfo) !void {
} }
} }
try out.writeAll("};\n\n"); try out.writeAll("};\n");
} }
fn renderAlias(out: var, registry: *Registry, name: []const u8, alias: []const u8) !void { fn renderAlias(out: var, registry: *Registry, name: []const u8, alias: []const u8) !void {
@@ -378,17 +451,20 @@ fn renderAlias(out: var, registry: *Registry, name: []const u8, alias: []const u
def = registry.findDefinitionByName(def.Alias).?; def = registry.findDefinitionByName(def.Alias).?;
} }
if (def.* == .Enum and shouldSkipEnum(&def.Enum)) { if ((def.* == .Enum and shouldSkipEnum(&def.Enum)) or def.* == .Command) {
return; return;
} }
try writeConstAssignmemt(out, trimNamespace(name)); try writeConstAssignmemt(out, trimNamespace(name));
try writeIdentifier(out, trimNamespace(alias)); try writeIdentifier(out, trimNamespace(alias));
try out.writeAll(";\n\n"); try out.writeAll(";\n");
} }
fn renderFnPtr(out: var, registry: *Registry, name: []const u8, info: *reg.CommandInfo) !void { fn renderFnPtr(out: var, registry: *Registry, name: []const u8, info: *reg.CommandInfo) !void {
try writeConstAssignmemt(out, trimNamespace(name)); try out.writeAll("pub const PFN_");
try writeIdentifier(out, name);
try out.writeAll(" = ");
try out.writeAll("?fn("); try out.writeAll("?fn(");
if (info.parameters.count() > 0) { if (info.parameters.count() > 0) {
@@ -405,7 +481,7 @@ fn renderFnPtr(out: var, registry: *Registry, name: []const u8, info: *reg.Comma
try out.writeAll(") callconv(.C) "); try out.writeAll(") callconv(.C) ");
try renderTypeInfo(out, registry, info.return_type_info); try renderTypeInfo(out, registry, info.return_type_info);
try out.writeAll(";\n\n"); try out.writeAll(";\n");
} }
fn renderContainer(out: var, registry: *Registry, kind: enum{Struct, Union}, name: []const u8, info: *reg.ContainerInfo) !void { fn renderContainer(out: var, registry: *Registry, kind: enum{Struct, Union}, name: []const u8, info: *reg.ContainerInfo) !void {
@@ -425,12 +501,13 @@ fn renderContainer(out: var, registry: *Registry, kind: enum{Struct, Union}, nam
try out.writeAll(",\n"); try out.writeAll(",\n");
} }
try out.writeAll("};\n\n"); try out.writeAll("};\n");
} }
fn renderTest(out: var) !void { fn renderTest(out: var) !void {
try out.writeAll( try out.writeAll(
\\test "Semantic analysis" { \\test "Semantic analysis" {
\\ @setEvalBranchQuota(2000);
\\ std.meta.refAllDecls(@This()); \\ std.meta.refAllDecls(@This());
\\} \\}
\\ \\