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DeclarationResolver

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This commit is contained in:
Robin Voetter
2020-06-13 16:00:48 +02:00
parent f055759972
commit e6884a4622
5 changed files with 250 additions and 541 deletions
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174
generator/generator.zig Normal file
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@@ -0,0 +1,174 @@
const std = @import("std");
const reg = @import("registry.zig");
const xml = @import("xml.zig");
const parseXml = @import("registry/parse.zig").parseXml;
const Allocator = std.mem.Allocator;
const FeatureLevel = reg.FeatureLevel;
fn cmpFeatureLevels(a: FeatureLevel, b: FeatureLevel) std.math.Order {
if (a.major > b.major) {
return .gt;
} if (a.major < b.major) {
return .lt;
}
if (a.minor > b.minor) {
return .gt;
} else if (a.minor < b.minor) {
return .lt;
}
return .eq;
}
const DeclarationResolver = struct {
const DeclarationSet = std.StringHashMap(void);
const EnumExtensionMap = std.StringHashMap(std.ArrayList(reg.Enum.Field));
allocator: *Allocator,
reg_arena: *Allocator,
registry: *reg.Registry,
declarations: DeclarationSet,
enum_extensions: EnumExtensionMap,
fn init(allocator: *Allocator, reg_arena: *Allocator, registry: *reg.Registry) DeclarationResolver {
return .{
.allocator = allocator,
.reg_arena = reg_arena,
.registry = registry,
.declarations = DeclarationSet.init(allocator),
.enum_extensions = EnumExtensionMap.init(allocator),
};
}
fn deinit(self: DeclarationResolver) void {
var it = self.enum_extensions.iterator();
while (it.next()) |kv| {
kv.value.deinit();
}
self.enum_extensions.deinit();
self.declarations.deinit();
}
fn putEnumExtension(self: *DeclarationResolver, enum_name: []const u8, field: reg.Enum.Field) !void {
const res = try self.enum_extensions.getOrPut(enum_name);
if (!res.found_existing) {
res.kv.value = std.ArrayList(reg.Enum.Field).init(self.allocator);
}
try res.kv.value.append(field);
}
fn addRequire(self: *DeclarationResolver, req: reg.Require) !void {
for (req.types) |type_name| {
_ = try self.declarations.put(type_name, {});
}
for (req.commands) |command| {
_ = try self.declarations.put(command, {});
}
for (req.extends) |enum_ext| {
try self.putEnumExtension(enum_ext.extends, enum_ext.field);
}
}
fn mergeEnumFields(self: *DeclarationResolver, name: []const u8, base_enum: *reg.Enum) !void {
// If there are no extensions for this enum, assume its valid.
const extensions = self.enum_extensions.get(name) orelse return;
// Todo: cache this in DeclarationResolver
var field_map = std.StringHashMap(reg.Enum.Value).init(self.allocator);
defer field_map.deinit();
for (base_enum.fields) |field| {
_ = try field_map.put(field.name, field.value);
}
// Assume that if a field name clobbers, the value is the same
for (extensions.value.items) |field| {
_ = try field_map.put(field.name, field.value);
}
const new_fields = try self.reg_arena.alloc(reg.Enum.Field, field_map.count());
var it = field_map.iterator();
for (new_fields) |*field| {
const kv = it.next().?;
field.* = .{
.name = kv.key,
.value = kv.value,
};
}
// Existing base_enum.fields was allocatued by `self.reg_arena`, so
// it gets cleaned up whenever that is deinited.
base_enum.fields = new_fields;
}
fn resolve(self: *DeclarationResolver) !void {
for (self.registry.features) |feature| {
for (feature.requires) |req| {
try self.addRequire(req);
}
}
for (self.registry.extensions) |ext| {
for (ext.requires) |req| {
try self.addRequire(req);
}
}
// Merge all the enum fields.
// Assume that all keys of enum_extensions appear in `self.registry.decls`
for (self.registry.decls) |*decl| {
if (decl.decl_type == .enumeration) {
try self.mergeEnumFields(decl.name, &decl.decl_type.enumeration);
}
}
// Swap-remove all declarations that are not required.
// Some declarations may exist in `self.declarations` that do not exit in
// `self.registry.decls`, these are mostly macros and other stuff not parsed.
var i: usize = 0;
var count = self.registry.decls.len;
while (i < count) {
const decl = self.registry.decls[i];
if (self.declarations.contains(decl.name)) {
i += 1;
} else {
count -= 1;
self.registry.decls[i] = self.registry.decls[count];
}
}
self.registry.decls = self.reg_arena.shrink(self.registry.decls, count);
}
};
pub const Generator = struct {
gpa: *Allocator,
registry_arena: std.heap.ArenaAllocator,
registry: reg.Registry,
pub fn init(allocator: *Allocator, spec: *xml.Element) !Generator {
const result = try parseXml(allocator, spec);
return Generator{
.gpa = allocator,
.registry_arena = result.arena,
.registry = result.registry,
};
}
pub fn deinit(self: Generator) void {
self.registry_arena.deinit();
}
// Solve registry.declarations according to registry.extensions and registry.features
pub fn resolveDeclarations(self: *Generator) !void {
var resolver = DeclarationResolver.init(self.gpa, &self.registry_arena.allocator, &self.registry);
defer resolver.deinit();
try resolver.resolve();
}
};

79
generator/main.zig
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@@ -1,9 +1,11 @@
const std = @import("std");
const xml = @import("xml.zig");
const parseXml = @import("registry/parse.zig").parseXml;
const registry = @import("registry.zig");
const reg = @import("registry.zig");
const vkgen = @import("generator.zig");
const Allocator = std.mem.Allocator;
fn renderType(type_info: registry.TypeInfo) void {
fn renderType(type_info: reg.TypeInfo) void {
switch (type_info) {
.container => |c| {
if (c.is_union) {
@@ -45,12 +47,12 @@ fn renderType(type_info: registry.TypeInfo) void {
}
}
fn dumpRegistry(reg: registry.Registry) void {
for (reg.tags) |tag| {
fn dumpRegistry(registry: reg.Registry) void {
for (registry.tags) |tag| {
std.debug.warn("tag: name = {}, author = {}\n", .{tag.name, tag.author});
}
for (reg.api_constants) |api_constant| {
for (registry.api_constants) |api_constant| {
std.debug.warn("constant: name = {}, ", .{api_constant.name});
switch (api_constant.value) {
.expr => |expr| std.debug.warn("expr = {}\n", .{expr}),
@@ -58,35 +60,80 @@ fn dumpRegistry(reg: registry.Registry) void {
}
}
for (reg.decls) |decl| {
for (registry.decls) |decl| {
std.debug.warn("decl: name = {}; ", .{decl.name});
renderType(decl.decl_type);
std.debug.warn("\n", .{});
}
}
const ProfilingAllocator = struct {
allocator: Allocator,
parent_allocator: *Allocator,
max_usage: usize,
current_usage: usize,
fn init(parent_allocator: *Allocator) ProfilingAllocator {
return ProfilingAllocator{
.allocator = Allocator{
.reallocFn = realloc,
.shrinkFn = shrink,
},
.parent_allocator = parent_allocator,
.max_usage = 0,
.current_usage = 0,
};
}
fn realloc(allocator: *Allocator, old_mem: []u8, old_align: u29, new_size: usize, new_align: u29) ![]u8 {
const self = @fieldParentPtr(ProfilingAllocator, "allocator", allocator);
self.current_usage = self.current_usage - old_mem.len + new_size;
if (self.current_usage > self.max_usage) {
self.max_usage = self.current_usage;
}
return self.parent_allocator.reallocFn(self.parent_allocator, old_mem, old_align, new_size, new_align);
}
fn shrink(allocator: *Allocator, old_mem: []u8, old_align: u29, new_size: usize, new_align: u29) []u8 {
const self = @fieldParentPtr(ProfilingAllocator, "allocator", allocator);
return self.parent_allocator.shrinkFn(self.parent_allocator, old_mem, old_align, new_size, new_align);
}
};
pub fn main() !void {
// if (std.os.argv.len <= 1) {
// std.debug.warn("Usage: vulkan-zig-gen <path-to-vk.xml>\n", .{});
// return;
// }
if (std.os.argv.len <= 1) {
std.debug.warn("Usage: vulkan-zig-gen <path-to-vk.xml>\n", .{});
return;
}
var prof_alloc = ProfilingAllocator.init(std.heap.page_allocator);
const allocator = &prof_alloc.allocator;
const file = try std.fs.cwd().openFileZ(std.os.argv[1], .{});
defer file.close();
const size = try file.seekableStream().getEndPos();
const source = try std.heap.page_allocator.alloc(u8, size);
defer std.heap.page_allocator.free(source);
const source = try allocator.alloc(u8, size);
defer allocator.free(source);
_ = try file.inStream().read(source);
const spec = try xml.parse(std.heap.page_allocator, source);
const spec = try xml.parse(allocator, source);
defer spec.deinit();
const result = try parseXml(std.heap.page_allocator, spec.root);
defer result.deinit();
// const result = try parseXml(std.heap.page_allocator, spec.root);
// defer result.deinit();
dumpRegistry(result.registry);
// dumpRegistry(result.registry);
var gen = try vkgen.Generator.init(allocator, spec.root);
defer gen.deinit();
try gen.resolveDeclarations();
std.debug.warn("Total declarations: {}\n", .{gen.registry.decls.len});
std.debug.warn("Total memory usage: {} KiB\n", .{@divTrunc(prof_alloc.max_usage, 1024)});
}
test "main" {

20
generator/registry/parse.zig
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@@ -579,7 +579,7 @@ fn parseRequire(allocator: *Allocator, require: *xml.Element, extnumber: ?u31) !
};
return registry.Require{
.extends = extends,
.extends = allocator.shrink(extends, i_extends),
.types = types,
.commands = commands,
.required_feature_level = required_feature_level,
@@ -594,10 +594,15 @@ fn parseExtensions(allocator: *Allocator, root: *xml.Element) ![]registry.Extens
var i: usize = 0;
var it = extensions_elem.findChildrenByTag("extension");
while (it.next()) |extension| {
if (try parseExtension(allocator, extension)) |ext| {
extensions[i] = ext;
i += 1;
// Some extensions (in particular 94) are disabled, so just skip them
if (extension.getAttribute("supported")) |supported| {
if (mem.eql(u8, supported, "disabled")) {
continue;
}
}
extensions[i] = try parseExtension(allocator, extension);
i += 1;
}
return allocator.shrink(extensions, i);
@@ -619,12 +624,7 @@ fn findExtVersion(extension: *xml.Element) !u32 {
return error.InvalidRegistry;
}
fn parseExtension(allocator: *Allocator, extension: *xml.Element) !?registry.Extension {
// Some extensions (in particular 94) are disabled, so just skip them
if (extension.getAttribute("supported")) |supported| {
if (mem.eql(u8, supported, "disabled")) return null;
}
fn parseExtension(allocator: *Allocator, extension: *xml.Element) !registry.Extension {
const name = extension.getAttribute("name") orelse return error.InvalidRegistry;
const platform = extension.getAttribute("platform");
const version = try findExtVersion(extension);

516
generator/render.zig
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@@ -1,515 +1,3 @@
const std = @import("std");
const ast = std.zig.ast;
const mem = std.mem;
const Allocator = mem.Allocator;
const reg = @import("registry.zig");
const Registry = reg.Registry;
const base_indent = " " ** 4;
const ForeignType = struct {
name: []const u8,
expr: []const u8
};
const foreign_types = [_]ForeignType{
.{.name = "Display", .expr = "@Type(.Opaque)"},
.{.name = "VisualID", .expr = @typeName(c_uint)},
.{.name = "Window", .expr = @typeName(c_ulong)},
.{.name = "RROutput", .expr = @typeName(c_ulong)},
.{.name = "wl_display", .expr = "@Type(.Opaque)"},
.{.name = "wl_surface", .expr = "@Type(.Opaque)"},
.{.name = "HINSTANCE", .expr = "u32; //std.os.HINSTANCE"},
.{.name = "HWND", .expr = "*@Type(.Opaque)"},
.{.name = "HMONITOR", .expr = "*@Type(.Opaque)"},
.{.name = "HANDLE", .expr = "u32; //std.os.HANDLE"},
.{.name = "SECURITY_ATTRIBUTES", .expr = "u32; //std.os.SECURITY_ATTRIBUTES"},
.{.name = "DWORD", .expr = "u32; //std.os.DWORD"},
.{.name = "LPCWSTR", .expr = "u32; //std.os.LPCWSTR"},
.{.name = "xcb_connection_t", .expr = "@Type(.Opaque)"},
.{.name = "xcb_visualid_t", .expr = @typeName(u32)},
.{.name = "xcb_window_t", .expr = @typeName(u32)},
.{.name = "zx_handle_t", .expr = @typeName(u32)},
.{.name = "GgpStreamDescriptor", .expr = @typeName(u32)}, // TODO: Remove GGP-related code
.{.name = "GgpFrameToken", .expr = @typeName(u32)},
.{.name = "ANativeWindow", .expr = "@Type(.Opaque)"},
.{.name = "AHardwareBuffer", .expr = "@Type(.Opaque)"},
.{.name = "CAMetalLayer", .expr = "@Type(.Opaque)"},
};
const foreign_types_namespace = "foreign";
const BuiltinType = struct {
c_name: []const u8,
zig_name: []const u8
};
const builtin_types = [_]BuiltinType{
.{.c_name = "void", .zig_name = @typeName(void)},
.{.c_name = "char", .zig_name = @typeName(u8)},
.{.c_name = "float", .zig_name = @typeName(f32)},
.{.c_name = "double", .zig_name = @typeName(f64)},
.{.c_name = "uint8_t", .zig_name = @typeName(u8)},
.{.c_name = "uint16_t", .zig_name = @typeName(u16)},
.{.c_name = "uint32_t", .zig_name = @typeName(u32)},
.{.c_name = "uint64_t", .zig_name = @typeName(u64)},
.{.c_name = "int32_t", .zig_name = @typeName(i32)},
.{.c_name = "int64_t", .zig_name = @typeName(i64)},
.{.c_name = "size_t", .zig_name = @typeName(usize)},
.{.c_name = "int", .zig_name = @typeName(c_int)},
};
pub fn render(out: var, registry: *Registry) !void {
try out.writeAll("const std = @import(\"std\");\n");
try renderApiConstants(out, registry);
try renderForeignTypes(out);
try out.writeAll("\n");
try renderDeclarations(out, registry);
try renderTest(out);
}
fn trimNamespace(name: []const u8) []const u8 {
const prefixes = [_][]const u8{"VK_", "vk", "Vk", "PFN_vk"};
for (prefixes) |prefix| {
if (mem.startsWith(u8, name, prefix)) {
return name[prefix.len..];
}
}
unreachable;
}
fn getAuthorTag(registry: *Registry, name: []const u8) ?[]const u8 {
var it = registry.tags.iterator(0);
while (it.next()) |tag| {
if (mem.endsWith(u8, name, tag.name)) {
return tag;
}
}
return null;
}
fn trimTag(registry: *Registry, name: []const u8) []const u8 {
const tag = getAuthorTag(name) orelse return name;
return mem.trimRight(u8, name[0 .. name.len - tag.name.len], "_");
}
// Lifted from src-self-hosted/translate_c.zig
fn isValidZigIdentifier(name: []const u8) bool {
for (name) |c, i| {
switch (c) {
'_', 'a'...'z', 'A'...'Z' => {},
'0' ... '9' => if (i == 0) return false,
else => return false
}
}
return true;
}
// Lifted from src-self-hosted/translate_c.zig
fn isZigReservedIdentifier(name: []const u8) bool {
if (name.len > 1 and (name[0] == 'u' or name[0] == 'i')) {
for (name[1..]) |c| {
switch (c) {
'0'...'9' => {},
else => return false,
}
}
return true;
}
// void is invalid in c so it doesn't need to be checked.
const reserved_names = [_][]const u8 {
"comptime_float", "comptime_int", "bool", "isize",
"usize", "f16", "f32", "f64", "f128", "c_longdouble",
"noreturn", "type", "anyerror", "c_short", "c_ushort",
"c_int", "c_uint", "c_long", "c_ulong", "c_longlong", "c_ulonglong"
};
for (reserved_names) |reserved| {
if (mem.eql(u8, reserved, name)) {
return true;
}
}
return false;
}
fn writeIdentifier(out: var, name: []const u8) !void {
if (!isValidZigIdentifier(name) or isZigReservedIdentifier(name) or std.zig.Token.getKeyword(name) != null) {
try out.print("@\"{}\"", .{name});
} else {
try out.writeAll(name);
}
}
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 {
try out.print("pub const {} = ", .{Identifier.init(name)});
}
fn eqlIgnoreCase(lhs: []const u8, rhs: []const u8) bool {
if (lhs.len != rhs.len) {
return false;
}
for (lhs) |c, i| {
if (std.ascii.toLower(c) != std.ascii.toLower(rhs[i])) {
return false;
}
}
return true;
}
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| {
try out.print("[{}]", .{trimNamespace(array_size)});
}
for (type_info.pointers) |ptr| {
// Apparently Vulkan optional-ness information is not correct, so every pointer
// is considered optional
switch (ptr.size) {
.One => try out.writeAll("?*"),
.Many => if (is_void_ptr)
try out.writeAll("?*")
else
try out.writeAll("?[*]"),
.ZeroTerminated => try out.writeAll("?[*:0]")
}
if (ptr.is_const) {
try out.writeAll("const ");
}
}
if (is_void_ptr) {
try out.writeAll("c_void");
return;
}
// If the type is foreign, add the appropriate namespace specifier
for (foreign_types) |fty| {
if (mem.eql(u8, type_info.name, fty.name)) {
try out.print(foreign_types_namespace ++ ".{}", .{type_info.name});
return;
}
}
// Some types can be mapped directly to a built-in type
for (builtin_types) |bty| {
if (mem.eql(u8, type_info.name, bty.c_name)) {
try out.writeAll(bty.zig_name);
return;
}
}
// Make sure the type is defined by Vulkan otherwise
if (registry.findDefinitionByName(type_info.name)) |def| {
if (def.* == .FnPtr) {
try out.writeAll("PFN_");
}
try writeIdentifier(out, trimNamespace(type_info.name));
} else {
return error.InvalidType;
}
}
fn renderApiConstantExpr(out: var, constant_expr: []const u8) !void {
// omit enclosing parenthesis
const expr = if (constant_expr[0] == '(' and constant_expr[constant_expr.len - 1] == ')')
constant_expr[1 .. constant_expr.len - 1]
else
constant_expr;
var i: usize = 0;
while (i < expr.len) {
switch (expr[i]) {
'(', ')', '~' => try out.writeByte(expr[i]),
'-' => try out.writeAll(" - "),
'a'...'z', 'A'...'Z', '_' => {
var j = i;
while (j < expr.len) : (j += 1) {
switch (expr[j]) {
'a'...'z', 'A'...'Z', '_', '0'...'9' => {},
else => break
}
}
try writeIdentifier(out, trimNamespace(expr[i .. j]));
i = j;
continue;
},
'0'...'9' => {
var j = i;
while (j < expr.len) : (j += 1) {
switch (expr[j]) {
'0'...'9', '.' => {},
else => break
}
}
if (mem.startsWith(u8, expr[j..], "f")) {
try out.print("@as(f32, {})", .{expr[i .. j]});
j += "f".len;
} else if (mem.startsWith(u8, expr[j..], "ULL")) {
try out.print("@as(u32, {})", .{expr[i .. j]});
j += "ULL".len;
} else if (mem.startsWith(u8, expr[j..], "U")) {
try out.print("@as(u64, {})", .{expr[i .. j]});
j += "U".len;
} else {
try out.writeAll(expr[i .. j]);
}
i = j;
continue;
},
' ' => {},
else => return error.InvalidConstantExpr
}
i += 1;
}
}
fn renderApiConstants(out: var, registry: *Registry) !void {
var it = registry.api_constants.iterator(0);
while (it.next()) |constant| {
try writeConstAssignmemt(out, trimNamespace(constant.name));
try renderApiConstantExpr(out, constant.expr);
try out.writeAll(";\n");
}
try out.writeAll("\n");
}
fn renderForeignTypes(out: var) !void {
try writeConstAssignmemt(out, foreign_types_namespace);
try out.writeAll("struct {\n");
for (foreign_types) |fty| {
try out.writeAll(base_indent);
try writeConstAssignmemt(out, fty.name);
try out.print("{};\n", .{fty.expr});
}
try out.writeAll("};\n");
}
fn renderDeclarations(out: var, registry: *Registry) !void {
var it = registry.declarations.iterator(0);
while (it.next()) |decl| {
switch (decl.definition) {
.Struct => |*info| try renderContainer(out, registry, .Struct, 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| {
try writeConstAssignmemt(out, trimNamespace(decl.name));
try renderTypeInfo(out, registry, type_info);
try out.writeAll(";\n");
},
}
}
}
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 {
// Skip empty declarations (which are unused bitflags)
return enum_info.variants.count() == 0;
}
fn renderEnum(out: var, name: []const u8, enum_info: *reg.EnumInfo) !void {
if (shouldSkipEnum(enum_info)) {
return;
}
const trimmed_name = trimNamespace(name);
try writeConstAssignmemt(out, trimmed_name);
try out.writeAll("extern enum {\n");
// Calculate the length of the enum namespace, by iterating through the segments
// of the variant (in screaming snake case) and comparing it to the name of the enum,
// until the two differ.
var prefix_len: usize = 0;
var snake_prefix_len: usize = 0;
var segment_it = mem.split(enum_info.variants.at(0).name, "_");
while (segment_it.next()) |segment| {
if (prefix_len + segment.len <= name.len and eqlIgnoreCase(segment, name[prefix_len .. prefix_len + segment.len])) {
prefix_len += segment.len;
snake_prefix_len += segment.len + 1; // Add one for the underscore
} else {
break;
}
}
var it = enum_info.variants.iterator(0);
while (it.next()) |variant| {
if (variant.value == .Alias) continue; // Skip aliases
try out.writeAll(base_indent);
try writeIdentifier(out, variant.name[snake_prefix_len ..]);
switch (variant.value) {
.Value => |value| try out.print(" = {},\n", .{value}),
.HexValue => |value| try out.print(" = 0x{X},\n", .{value}),
.Bitpos => |value| try out.print(" = 1 << {},\n", .{value}),
.Alias => unreachable
}
}
try out.writeAll("};\n");
}
fn renderAlias(out: var, registry: *Registry, name: []const u8, alias: []const u8) !void {
// An declaration may be aliased to a bit flag enum which has no members, in which case
// the alias also has to be skipped.
var def = registry.findDefinitionByName(alias).?;
while (def.* == .Alias) {
def = registry.findDefinitionByName(def.Alias).?;
}
if ((def.* == .Enum and shouldSkipEnum(&def.Enum)) or def.* == .Command) {
return;
}
try writeConstAssignmemt(out, trimNamespace(name));
try writeIdentifier(out, trimNamespace(alias));
try out.writeAll(";\n");
}
fn renderFnPtr(out: var, registry: *Registry, name: []const u8, info: *reg.CommandInfo) !void {
try out.writeAll("pub const PFN_");
try writeIdentifier(out, name);
try out.writeAll(" = ");
try out.writeAll("?fn(");
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");
}
fn renderContainer(out: var, registry: *Registry, kind: enum{Struct, Union}, name: []const u8, info: *reg.ContainerInfo) !void {
try writeConstAssignmemt(out, trimNamespace(name));
switch (kind) {
.Struct => try out.writeAll("extern struct {\n"),
.Union => try out.writeAll("extern union {\n")
}
var it = info.members.iterator(0);
while (it.next()) |member| {
try out.writeAll(base_indent);
try writeIdentifier(out, member.name);
try out.writeAll(": ");
try renderTypeInfo(out, registry, member.type_info);
try out.writeAll(",\n");
}
try out.writeAll("};\n");
}
fn renderTest(out: var) !void {
try out.writeAll(
\\test "Semantic analysis" {
\\ @setEvalBranchQuota(2000);
\\ std.meta.refAllDecls(@This());
\\}
\\
);
}
const registry = @import("registry.zig");
const Allocator = std.mem.Allocator,

2
generator/xml.zig
View File

@@ -17,7 +17,7 @@ pub const Content = union(enum) {
};
pub const Element = struct {
pub const AttributeList = SegmentedList(*Attribute, 0);
pub const AttributeList = SegmentedList(*Attribute, 1);
pub const ContentList = SegmentedList(Content, 0);
tag: []const u8,