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Rendering setup

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This commit is contained in:
Robin Voetter
2020-06-15 04:11:13 +02:00
parent b113aad195
commit b9cbe5a155
6 changed files with 546 additions and 12 deletions
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7
generator/generator.zig
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@@ -1,6 +1,7 @@
const std = @import("std");
const reg = @import("registry.zig");
const xml = @import("xml.zig");
const renderRegistry = @import("render.zig").render;
const parseXml = @import("registry/parse.zig").parseXml;
const Allocator = std.mem.Allocator;
const FeatureLevel = reg.FeatureLevel;
@@ -167,10 +168,14 @@ pub const Generator = struct {
self.registry_arena.deinit();
}
// Solve registry.declarations according to registry.extensions and registry.features
// 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();
}
pub fn render(self: *Generator, out_stream: var) !void {
try renderRegistry(out_stream, self.gpa, &self.registry);
}
};

12
generator/main.zig
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@@ -122,16 +122,14 @@ pub fn main() !void {
const spec = try xml.parse(allocator, source);
defer spec.deinit();
// const result = try parseXml(std.heap.page_allocator, spec.root);
// defer result.deinit();
// dumpRegistry(result.registry);
var gen = try vkgen.Generator.init(allocator, spec.root);
defer gen.deinit();
try gen.resolveDeclarations();
const stdout = std.io.getStdOut().writer();
try gen.render(stdout);
std.debug.warn("Total declarations: {}\n", .{gen.registry.decls.len});
std.debug.warn("Total memory usage: {} KiB\n", .{@divTrunc(prof_alloc.max_usage, 1024)});
}
@@ -140,3 +138,7 @@ test "main" {
_ = @import("xml.zig");
_ = @import("registry/c-parse.zig");
}
// TODO: Fix not all enums being parsed.
// TODO: Fix not all struct fields being marked as optional properly.
// TODO: Sort enum fields.

4
generator/registry.zig
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@@ -20,6 +20,7 @@ pub const DeclarationType = union(enum) {
alias: Alias,
foreign: Foreign,
typedef: TypeInfo,
opaque,
};
pub const Alias = struct {
@@ -52,7 +53,6 @@ pub const TypeInfo = union(enum) {
command_ptr: Command,
pointer: Pointer,
array: Array,
opaque,
};
pub const Container = struct {
@@ -72,7 +72,7 @@ pub const Enum = struct {
bit_vector: i32, // Combined flags & some vendor IDs
int: i32,
alias: struct {
alias_name: []const u8,
name: []const u8,
is_compat_alias: bool,
}
};

4
generator/registry/parse.zig
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@@ -151,7 +151,7 @@ fn parseBaseType(allocator: *Allocator, ty: *xml.Element) !registry.Declaration
// macros, which is why this part is not built into the xml/c parser.
return registry.Declaration{
.name = name,
.decl_type = .{.typedef = .{.opaque = {}}},
.decl_type = .{.opaque = {}},
};
}
}
@@ -302,7 +302,7 @@ fn parseEnumField(field: *xml.Element) !registry.Enum.Field {
} else if (field.getAttribute("bitpos")) |bitpos| {
break :blk .{.bitpos = try std.fmt.parseInt(u5, bitpos, 10)};
} else if (field.getAttribute("alias")) |alias| {
break :blk .{.alias = .{.alias_name = alias, .is_compat_alias = is_compat_alias}};
break :blk .{.alias = .{.name = alias, .is_compat_alias = is_compat_alias}};
} else {
return error.InvalidRegistry;
}

299
generator/render.zig
View File

@@ -1,3 +1,298 @@
const std = @import("std");
const registry = @import("registry.zig");
const Allocator = std.mem.Allocator,
const reg = @import("registry.zig");
const util = @import("render/util.zig");
const mem = std.mem;
const Allocator = mem.Allocator;
const preamble =
\\const std = @import("std");
\\
;
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)},
};
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 Renderer(comptime WriterType: type) type {
return struct {
const Self = @This();
const WriteError = WriterType.Error;
const RenderTypeInfoError = WriteError || error {
OutOfMemory,
};
writer: WriterType,
allocator: *Allocator,
registry: *const reg.Registry,
id_renderer: util.IdRenderer,
fn init(writer: WriterType, allocator: *Allocator, registry: *const reg.Registry) Self {
return .{
.writer = writer,
.allocator = allocator,
.registry = registry,
.id_renderer = util.IdRenderer.init(allocator, registry.tags),
};
}
fn deinit(self: Self) void {
self.id_renderer.deinit();
}
fn writeIdentifier(self: Self, id: []const u8) !void {
try util.writeIdentifier(self.writer, id);
}
fn writeIdentifierWithCase(self: *Self, case: util.CaseStyle, id: []const u8) !void {
try self.id_renderer.render(self.writer, case, id);
}
fn extractEnumFieldName(self: Self, enum_name: []const u8, field_name: []const u8) ![]const u8 {
const tag = util.getAuthorTag(enum_name, self.registry.tags);
const adjusted_enum_name = if (tag) |name|
enum_name[0 .. enum_name.len - name.len]
else
enum_name;
var enum_it = util.SegmentIterator.init(adjusted_enum_name);
var field_it = util.SegmentIterator.init(field_name);
while (true) {
const rest = field_it.rest();
const enum_segment = enum_it.next() orelse return rest;
const field_segment = field_it.next() orelse return error.FieldNameEqualsEnumName;
if (!eqlIgnoreCase(enum_segment, field_segment)) {
return rest;
}
}
}
fn render(self: *Self) !void {
try self.writer.writeAll(preamble);
for (self.registry.decls) |decl| {
try self.renderDecl(decl);
}
}
fn renderTypeInfo(self: *Self, type_info: reg.TypeInfo) RenderTypeInfoError!void {
switch (type_info) {
.name => |name| try self.renderTypeName(name),
.command_ptr => |command_ptr| try self.renderCommandPtr(command_ptr),
.pointer => |pointer| try self.renderPointer(pointer),
.array => |array| try self.renderArray(array),
}
}
fn renderTypeName(self: *Self, name: []const u8) !void {
for (builtin_types) |builtin_type| {
if (mem.eql(u8, name, builtin_type.c_name)) {
try self.writer.writeAll(builtin_type.zig_name);
return;
}
}
// TODO: Handle foreign types
if (mem.startsWith(u8, name, "vk")) {
// Function type, always render with the exact same text for linking purposes.
try self.writeIdentifier(name);
return;
} else if (mem.startsWith(u8, name, "Vk")) {
// Type, strip namespace and write, as they are alreay in title case.
try self.writeIdentifier(name[2..]);
return;
} else if (mem.startsWith(u8, name, "PFN_vk")) {
// Function pointer type, render using same name for now
try self.writeIdentifier(name);
return;
}
try self.writeIdentifier(name);
}
fn renderCommandPtr(self: *Self, command_ptr: reg.Command) !void {
try self.writer.writeAll("?fn(");
for (command_ptr.params) |param| {
try self.writeIdentifierWithCase(.snake, param.name);
try self.writer.writeAll(": ");
try self.renderTypeInfo(param.param_type);
try self.writer.writeAll(", ");
}
try self.writer.writeAll(") ");
try self.renderTypeInfo(command_ptr.return_type.*);
}
fn renderPointer(self: *Self, pointer: reg.Pointer) !void {
if (pointer.is_optional) {
try self.writer.writeByte('?');
}
switch (pointer.size) {
.one => try self.writer.writeByte('*'),
.many => try self.writer.writeAll("[*]"),
.zero_terminated => try self.writer.writeAll("[*:0]"),
}
if (pointer.is_const) {
try self.writer.writeAll("const ");
}
// Special case: void pointers
if (pointer.child.* == .name and mem.eql(u8, pointer.child.name, "void")) {
try self.writer.writeAll("c_void");
} else {
try self.renderTypeInfo(pointer.child.*);
}
}
fn renderArray(self: *Self, array: reg.Array) !void {
try self.writer.writeByte('[');
switch (array.size) {
.int => |size| try self.writer.print("{}", .{size}),
.alias => |alias| try self.writeIdentifier(alias[3..]), //TODO: Check proper VK_ prefix
}
try self.writer.writeByte(']');
try self.renderTypeInfo(array.child.*);
}
fn renderDecl(self: *Self, decl: reg.Declaration) !void {
switch (decl.decl_type) {
.container => |container| try self.renderContainer(decl.name, container),
.enumeration => |enumeration| try self.renderEnumeration(decl.name, enumeration),
.alias => |alias| try self.renderAlias(decl.name, alias),
.opaque => try self.renderOpaque(decl.name),
.typedef => |type_info| try self.renderTypedef(decl.name, type_info),
else => {}, // unhandled for now
}
}
fn renderContainer(self: *Self, name: []const u8, container: reg.Container) !void {
try self.writer.writeAll("const ");
try self.renderTypeName(name);
try self.writer.writeAll(" = ");
for (container.fields) |field| {
if (field.bits != null) {
try self.writer.writeAll("packed ");
break;
}
} else {
try self.writer.writeAll("extern ");
}
if (container.is_union) {
try self.writer.writeAll("union {");
} else {
try self.writer.writeAll("struct {");
}
for (container.fields) |field| {
try self.writeIdentifierWithCase(.snake, field.name);
try self.writer.writeAll(": ");
try self.renderTypeInfo(field.field_type);
// TODO: Generate struct defaults
// TODO: Deal with packed structs
try self.writer.writeAll(", ");
}
try self.writer.writeAll("};\n");
}
fn renderEnumeration(self: *Self, name: []const u8, enumeration: reg.Enum) !void {
// TODO: Handle bitmasks
try self.writer.writeAll("const ");
try self.renderTypeName(name);
try self.writer.writeAll(" = extern enum {");
for (enumeration.fields) |field| {
if (field.value == .alias) {
continue;
}
try self.writeIdentifierWithCase(.snake, try self.extractEnumFieldName(name, field.name));
switch (field.value) {
.int => |int| try self.writer.print("= {}, ", .{int}),
.bitpos => |pos| try self.writer.print(" = 1 << {}, ", .{pos}),
.bit_vector => |value| try self.writer.print(" = 0x{X}, ", .{value}),
.alias => unreachable,
}
}
for (enumeration.fields) |field| {
if (field.value != .alias or field.value.alias.is_compat_alias) {
continue;
}
try self.writer.writeAll("pub const ");
try self.writeIdentifierWithCase(.snake, try self.extractEnumFieldName(name, field.name));
try self.writer.writeAll(" = ");
try self.writeIdentifierWithCase(.snake, try self.extractEnumFieldName(name, field.value.alias.name));
try self.writer.writeAll(";");
}
try self.writer.writeAll("};\n");
}
fn renderAlias(self: *Self, name: []const u8, alias: reg.Alias) !void {
try self.writer.writeAll("const ");
try self.renderTypeName(name);
try self.writer.writeAll(" = ");
try self.renderTypeName(alias.name);
try self.writer.writeAll(";\n");
}
fn renderOpaque(self: *Self, name: []const u8) !void {
try self.writer.writeAll("const ");
try self.renderTypeName(name);
try self.writer.writeAll(" = @Type(.Opaque);\n");
}
fn renderTypedef(self: *Self, name: []const u8, type_info: reg.TypeInfo) !void {
try self.writer.writeAll("const ");
try self.renderTypeName(name);
try self.writer.writeAll(" = ");
try self.renderTypeInfo(type_info);
try self.writer.writeAll(";\n");
}
};
}
pub fn render(writer: var, allocator: *Allocator, registry: *const reg.Registry) !void {
var renderer = Renderer(@TypeOf(writer)).init(writer, allocator, registry);
defer renderer.deinit();
try renderer.render();
}

232
generator/render/util.zig Normal file
View File

@@ -0,0 +1,232 @@
const std = @import("std");
const reg = @import("../registry.zig");
const mem = std.mem;
const Allocator = mem.Allocator;
// Lifted from src-self-hosted/translate_c.zig
pub 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
pub 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;
}
const reserved_names = [_][]const u8 {
"void", "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;
}
pub fn needZigEscape(name: []const u8) bool {
return !isValidZigIdentifier(name)
or isZigReservedIdentifier(name)
or std.zig.Token.getKeyword(name) != null;
}
pub fn writeIdentifier(out: var, id: []const u8) !void {
if (needZigEscape(id)) {
try out.print("@\"{}\"", .{id});
} else {
try out.writeAll(id);
}
}
pub const CaseStyle = enum {
snake,
screaming_snake,
title,
camel,
};
pub fn trimVkNamespace(id: []const u8) []const u8 {
const prefixes = [_][]const u8{"VK_", "vk", "Vk", "PFN_vk"};
for (prefixes) |prefix| {
if (mem.startsWith(u8, id, prefix)) {
return id[prefix.len..];
}
}
return id;
}
pub fn getAuthorTag(id: []const u8, tags: []const reg.Tag) ?[]const u8 {
for (tags) |tag| {
if (mem.endsWith(u8, id, tag.name)) {
return tag.name;
}
}
return null;
}
pub const SegmentIterator = struct {
text: []const u8,
offset: usize,
pub fn init(text: []const u8) SegmentIterator {
return .{
.text = text,
.offset = 0,
};
}
fn nextBoundary(self: SegmentIterator) usize {
var i = self.offset + 1;
while (true) {
if (i == self.text.len or self.text[i] == '_') {
return i;
}
const prev_lower = std.ascii.isLower(self.text[i - 1]);
const next_lower = std.ascii.isLower(self.text[i]);
if (prev_lower and !next_lower) {
return i;
} else if (i != self.offset + 1 and !prev_lower and next_lower) {
return i - 1;
}
i += 1;
}
}
pub fn next(self: *SegmentIterator) ?[]const u8 {
while (self.offset < self.text.len and self.text[self.offset] == '_') {
self.offset += 1;
}
if (self.offset == self.text.len) {
return null;
}
const end = self.nextBoundary();
const word = self.text[self.offset .. end];
self.offset = end;
return word;
}
pub fn rest(self: SegmentIterator) []const u8 {
if (self.offset >= self.text.len) {
return &[_]u8{};
} else {
return self.text[self.offset..];
}
}
};
pub const IdRenderer = struct {
tags: []const reg.Tag,
text_cache: std.ArrayList(u8),
pub fn init(allocator: *Allocator, tags: []const reg.Tag) IdRenderer {
return .{
.tags = tags,
.text_cache = std.ArrayList(u8).init(allocator),
};
}
pub fn deinit(self: IdRenderer) void {
self.text_cache.deinit();
}
fn renderSnake(self: *IdRenderer, screaming: bool, id: []const u8, tag: ?[]const u8) !void {
var it = SegmentIterator.init(id);
var first = true;
const transform = if (screaming) std.ascii.toUpper else std.ascii.toLower;
while (it.next()) |segment| {
if (first) {
first = false;
} else {
try self.text_cache.append('_');
}
for (segment) |c| {
try self.text_cache.append(transform(c));
}
}
if (tag) |name| {
try self.text_cache.append('_');
for (name) |c| {
try self.text_cache.append(transform(c));
}
}
}
fn renderCamel(self: *IdRenderer, title: bool, id: []const u8, tag: ?[]const u8) !void {
var it = SegmentIterator.init(id);
var lower_first = !title;
while (it.next()) |segment| {
var i: usize = 0;
while (i < segment.len and std.ascii.isDigit(segment[i])) {
try self.text_cache.append(segment[i]);
i += 1;
}
if (i == segment.len) {
continue;
}
if (i == 0 and lower_first) {
try self.text_cache.append(std.ascii.toLower(segment[i]));
} else {
try self.text_cache.append(std.ascii.toUpper(segment[i]));
}
lower_first = false;
for (segment[i + 1..]) |c| {
try self.text_cache.append(std.ascii.toLower(c));
}
}
if (tag) |name| {
try self.text_cache.appendSlice(name);
}
}
pub fn render(self: *IdRenderer, out: var, case_style: CaseStyle, id: []const u8) !void {
const tag = getAuthorTag(id, self.tags);
const adjusted_id = if (tag) |name| id[0 .. id.len - name.len] else id;
self.text_cache.items.len = 0;
switch (case_style) {
.snake => try self.renderSnake(false, adjusted_id, tag),
.screaming_snake => try self.renderSnake(true, adjusted_id, tag),
.title => try self.renderCamel(true, adjusted_id, tag),
.camel => try self.renderCamel(false, adjusted_id, tag),
}
try writeIdentifier(out, self.text_cache.items);
}
};