local codegen = require "codegen" local idl = codegen.idl "bgfx.idl" local zig_template = [[ // Copyright 2011-2023 Branimir Karadzic. All rights reserved. // License: https://github.com/bkaradzic/bgfx/blob/master/LICENSE // // AUTO GENERATED! DO NOT EDIT! // const std = @import("std"); pub const ViewId = u16; $types $funcs ]] local function isempty(s) return s == nil or s == '' end local function hasPrefix(str, prefix) return prefix == "" or str:sub(1, #prefix) == prefix end local function hasSuffix(str, suffix) return suffix == "" or str:sub(- #suffix) == suffix end local enum = {} local function convert_array(member) if string.find(member.array, "::") then return string.format("[%s]", enum[member.array]) else return member.array end end local function gisub(s, pat, repl, n) pat = string.gsub(pat, '(%a)', function(v) return '[' .. string.upper(v) .. string.lower(v) .. ']' end) if n then return string.gsub(s, pat, repl, n) else return string.gsub(s, pat, repl) end end local function convert_type_0(arg) if hasPrefix(arg.ctype, "uint64_t") then return arg.ctype:gsub("uint64_t", "u64") elseif hasPrefix(arg.ctype, "int64_t") then return arg.ctype:gsub("int64_t", "i64") elseif hasPrefix(arg.ctype, "uint32_t") then return arg.ctype:gsub("uint32_t", "u32") elseif hasPrefix(arg.ctype, "int32_t") then return arg.ctype:gsub("int32_t", "i32") elseif hasPrefix(arg.ctype, "uint16_t") then return arg.ctype:gsub("uint16_t", "u16") elseif hasPrefix(arg.ctype, "uint8_t") then return arg.ctype:gsub("uint8_t", "u8") elseif hasPrefix(arg.ctype, "uintptr_t") then return arg.ctype:gsub("uintptr_t", "usize") elseif hasPrefix(arg.ctype, "float") then return arg.ctype:gsub("float", "f32") elseif arg.ctype == "const char*" then return "[*c]const u8" elseif hasPrefix(arg.ctype, "char") then return arg.ctype:gsub("char", "u8") elseif hasSuffix(arg.fulltype, "Handle") then return arg.fulltype elseif arg.ctype == "..." then return "..." elseif arg.ctype == "va_list" or arg.fulltype == "bx::AllocatorI*" or arg.fulltype == "CallbackI*" or arg.fulltype == "ReleaseFn" then return "?*anyopaque" end return arg.fulltype end local function convert_type(arg) local ctype = convert_type_0(arg) ctype = ctype:gsub("::Enum", "") ctype = ctype:gsub(" &", "*") ctype = ctype:gsub("&", "*") ctype = ctype:gsub("char", "u8") ctype = ctype:gsub("float", "f32") ctype = ctype:gsub("const void%*", "?*const anyopaque") ctype = ctype:gsub("Encoder%*", "?*Encoder") if hasSuffix(ctype, "void*") then ctype = ctype:gsub("void%*", "?*anyopaque"); elseif hasSuffix(ctype, "*") then ctype = "[*c]" .. ctype:gsub("*", "") end if arg.array ~= nil then ctype = ctype:gsub("const ", "") ctype = convert_array(arg) .. ctype end return ctype end local function convert_struct_type(arg) return convert_type(arg) end local function convert_ret_type(arg) return convert_type(arg) end local function wrap_simple_func(func, args, argNames) local zigFunc = {} local zigFuncTemplate = [[pub inline fn $func($params) $ret { return $cfunc($args); }]] -- transform name to camelCase from snake_case zigFunc.func = func.cname:gsub("_(.)", func.cname.upper) -- make 2d/3d upper case 2D/3D zigFunc.func = zigFunc.func:gsub("%dd", zigFunc.func.upper); zigFunc.params = table.concat(args, ", ") zigFunc.ret = convert_ret_type(func.ret) zigFunc.cfunc = "bgfx_" .. func.cname zigFunc.args = table.concat(argNames, ", ") return zigFuncTemplate:gsub("$(%l+)", zigFunc) end local function wrap_method(func, type, args, argNames, indent) local zigFunc = {} local zigFuncTemplate = [[%spub inline fn $func($params) $ret { %sreturn $cfunc($args); %s}]] zigFuncTemplate = string.format(zigFuncTemplate, indent, indent, indent); -- transform name to camelCase from snake_case zigFunc.func = func.cname:gsub("_(.)", func.cname.upper) -- remove type from name zigFunc.func = gisub(zigFunc.func, type, ""); -- make first letter lowercase zigFunc.func = zigFunc.func:gsub("^%L", string.lower) -- make 2d/3d upper case 2D/3D zigFunc.func = zigFunc.func:gsub("%dd", zigFunc.func.upper); zigFunc.params = table.concat(args, ", ") zigFunc.ret = convert_ret_type(func.ret) -- remove C API pointer [*c] for fluent interfaces if zigFunc.ret == ("[*c]" .. type) then zigFunc.ret = zigFunc.ret:gsub("%[%*c%]", "*") end zigFunc.cfunc = "bgfx_" .. func.cname zigFunc.args = table.concat(argNames, ", ") return zigFuncTemplate:gsub("$(%l+)", zigFunc) end local converter = {} local yield = coroutine.yield local gen = {} local indent = "" function gen.gen() -- find the functions that have `this` first argument -- these belong to a type (struct) and we need to add them when converting structures local methods = {} for _, func in ipairs(idl["funcs"]) do if func.this ~= nil then if methods[func.this_type.type] == nil then methods[func.this_type.type] = {} end table.insert(methods[func.this_type.type], func) end end local r = zig_template:gsub("$(%l+)", function(what) local tmp = {} for _, object in ipairs(idl[what]) do local co = coroutine.create(converter[what]) local any -- we're pretty confident there are no types that have the same name with a func local funcs = methods[object.name] while true do local ok, v = coroutine.resume(co, { obj = object, funcs = funcs }) assert(ok, debug.traceback(co, v)) if not v then break end table.insert(tmp, v) any = true end if any and tmp[#tmp] ~= "" then table.insert(tmp, "") end end return table.concat(tmp, "\n") end) return r end local combined = { "State", "Stencil", "Buffer", "Texture", "Sampler", "Reset" } for _, v in ipairs(combined) do combined[v] = {} end local lastCombinedFlag local function FlagBlock(typ) local format = "0x%08x" local enumType = "u32" if typ.bits == 64 then format = "0x%016x" enumType = "u64" elseif typ.bits == 16 then format = "0x%04x" enumType = "u16" end local name = typ.name .. "Flags" yield("pub const " .. name .. " = " .. enumType .. ";") for idx, flag in ipairs(typ.flag) do if flag.comment ~= nil then if idx ~= 1 then yield("") end for _, comment in ipairs(flag.comment) do yield("/// " .. comment) end end local flagName = flag.name:gsub("_", "") -- make 2d/3d upper case 2D/3D flagName = flagName:gsub("%dd", flagName.upper); yield("pub const " .. name .. "_" .. flagName .. ": " .. name .. string.rep(" ", 22 - #(flagName)) .. " = " .. string.format(flag.format or format, flag.value) .. ";") end if typ.shift then yield(" " .. "Shift" .. string.rep(" ", 22 - #("Shift")) .. " = " .. flag.shift) end -- generate Mask if typ.mask then yield(" " .. "Mask" .. string.rep(" ", 22 - #("Mask")) .. " = " .. string.format(format, flag.mask)) end end local function lastCombinedFlagBlock() if lastCombinedFlag then local typ = combined[lastCombinedFlag] if typ then FlagBlock(combined[lastCombinedFlag]) yield("") end lastCombinedFlag = nil end end local function convert_struct_member(member) return member.name .. ": " .. convert_struct_type(member) end local namespace = "" function converter.types(params) local typ = params.obj local funcs = params.funcs if typ.handle then lastCombinedFlagBlock() yield("pub const " .. typ.name .. " = extern struct {") yield(" idx: c_ushort,") yield("};") elseif hasSuffix(typ.name, "::Enum") then lastCombinedFlagBlock() yield("pub const " .. typ.typename .. " = enum(c_int) {") for idx, enum in ipairs(typ.enum) do if enum.comment ~= nil then if idx ~= 1 then yield("") end for _, comment in ipairs(enum.comment) do yield(" /// " .. comment) end end yield(" " .. enum.name .. ",") end yield(""); yield(" Count") yield("};") enum["[" .. typ.typename .. "::Count]"] = #typ.enum elseif typ.bits ~= nil then local prefix, name = typ.name:match "(%u%l+)(.*)" if prefix ~= lastCombinedFlag then lastCombinedFlagBlock() lastCombinedFlag = prefix end local combinedFlag = combined[prefix] if combinedFlag then combinedFlag.bits = typ.bits combinedFlag.name = prefix local flags = combinedFlag.flag or {} combinedFlag.flag = flags local lookup = combinedFlag.lookup or {} combinedFlag.lookup = lookup for _, flag in ipairs(typ.flag) do local flagName = name .. flag.name:gsub("_", "") local value = flag.value if value == nil then -- It's a combined flag value = 0 for _, v in ipairs(flag) do value = value | assert(lookup[name .. v], v .. " is not defined for " .. flagName) end end lookup[flagName] = value table.insert(flags, { name = flagName, value = value, comment = flag.comment }) end if typ.shift then table.insert(flags, { name = name .. "Shift", value = typ.shift, format = "%d", comment = typ.comment }) end if typ.mask then -- generate Mask table.insert(flags, { name = name .. "Mask", value = typ.mask, comment = typ.comment }) lookup[name .. "Mask"] = typ.mask end else FlagBlock(typ) end elseif typ.struct ~= nil then local skip = false if typ.namespace ~= nil then if namespace ~= typ.namespace then yield("pub const " .. typ.namespace .. " = extern struct {") namespace = typ.namespace indent = " " end elseif namespace ~= "" then indent = " " namespace = "" skip = true end if not skip then if typ.name ~= "Encoder" then yield(indent .. "pub const " .. typ.name .. " = extern struct {") else yield(indent .. "pub const " .. typ.name .. " = opaque {") end end for _, member in ipairs(typ.struct) do yield(indent .. indent .. convert_struct_member(member) .. ",") end if funcs ~= nil then for _, func in ipairs(funcs) do converter.funcs({ obj = func, asMethod = true }) end end yield(indent .. "};") end end function converter.funcs(params) local func = params.obj if func.cpponly then return elseif func.cppinline and not func.conly then return end -- skip for now, don't know how to handle variadic functions if func.cname == "dbg_text_printf" or func.cname == "dbg_text_vprintf" then return end local func_indent = (params.asMethod == true and indent .. indent or "") if func.comments ~= nil then for _, line in ipairs(func.comments) do yield(func_indent .. "/// " .. line) end local hasParams = false for _, arg in ipairs(func.args) do if arg.comment ~= nil then local comment = table.concat(arg.comment, " ") yield(func_indent .. "/// " .. comment .. "") hasParams = true end end end local args = {} local argNames = {} if func.this ~= nil then local ptr = "[*c]" if params.asMethod == true then ptr = "*" end -- print("Function " .. func.name .. " has this: " .. func.this_type.type) if func.const ~= nil then ptr = ptr .. "const " end if func.this_type.type == "Encoder" then ptr = "?*" end args[1] = "self: " .. ptr .. func.this_type.type argNames[1] = "self" end for _, arg in ipairs(func.args) do local argName = arg.name -- local argName = arg.name:gsub("_", "") -- argName = argName:gsub("enum", "enumeration") -- argName = argName:gsub("type_", '@"type"') if not isempty(argName) then table.insert(argNames, argName) table.insert(args, argName .. ": " .. convert_type(arg)) else table.insert(args, convert_type(arg)) end end if (params.asMethod == true) then yield(wrap_method(func, func.this_type.type, args, argNames, func_indent)) else if func.this == nil then yield(wrap_simple_func(func, args, argNames)) end yield( "extern fn bgfx_" .. func.cname .. "(" .. table.concat(args, ", ") .. ") " .. convert_ret_type(func.ret) .. ";") end end function gen.write(codes, outputfile) local out = assert(io.open(outputfile, "wb")) out:write(codes) out:close() print("Generating: " .. outputfile) end if (...) == nil then -- run `lua bindings-zig.lua` in command line print(gen.gen()) end return gen