// Copyright (c) 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "tools/gn/functions.h" #include "tools/gn/parse_tree.h" #include "tools/gn/scope.h" #include "tools/gn/value.h" namespace functions { const char kTemplate[] = "template"; const char kTemplate_Help[] = "template: Define a template rule.\n" "\n" " A template defines a custom rule name that can expand to one or more\n" " other rules (typically built-in rules like \"static_library\"). It\n" " provides a way to add to the built-in target types.\n" "\n" " The template() function is used to declare a template. To invoke the\n" " template, just use the name of the template like any other target\n" " type.\n" "\n" "More details:\n" "\n" " Semantically, the code in the template is stored. When a function\n" " with the name is called, the block following the invocation is\n" " executed, *then* your template code is executed. So if the invocation\n" " sets the |source| variable, for example, that variable will be\n" " accessible to you when the template code runs.\n" "\n" " The template() function does not generate a closure, so the\n" " environment, current directory, etc. will all be the same as from\n" " the template is invoked.\n" "\n" "Hints:\n" "\n" " If your template expands to more than one target, be sure to name\n" " the intermediate targets based on the name of the template\n" " instantiation so that the names are globally unique. The variable\n" " |target_name| will be this name.\n" "\n" " Likewise, you will always want to generate a target in your template\n" " with the original |target_name|. Otherwise, invoking your template\n" " will not actually generate a node in the dependency graph that other\n" " targets can reference.\n" "\n" " Often you will want to declare your template in a special file that\n" " other files will import (see \"gn help import\") so your template\n" " rule can be shared across build files.\n" "\n" "Example of defining a template:\n" "\n" " template(\"my_idl\") {\n" " # Maps input files to output files, used in both targets below.\n" " filter = [ \"$target_gen_dir/{{source_name_part}}.cc\",\n" " \"$target_gen_dir/{{source_name_part}}.h\" ]\n" "\n" " # Intermediate target to compile IDL to C source.\n" " custom(\"${target_name}_code_gen\") {\n" " # The |sources| will be inherited from the surrounding scope so\n" " # we don't need to redefine it.\n" " script = \"foo.py\"\n" " outputs = filter # Variable from above.\n" " }\n" "\n" " # Name the static library the same as the template invocation so\n" " # instanting this template produces something that other targets\n" " # can link to in their deps.\n" " static_library(target_name) {\n" " # Generates the list of sources.\n" " # See \"gn help process_file_template\"\n" " sources = process_file_template(sources, filter)\n" " }\n" " }\n" "\n" "Example of invoking the resulting template:\n" "\n" " my_idl(\"foo_idl_files\") {\n" " sources = [ \"foo.idl\", \"bar.idl\" ]\n" " }\n"; Value RunTemplate(Scope* scope, const FunctionCallNode* function, const std::vector& args, BlockNode* block, Err* err) { // TODO(brettw) determine if the function is built-in and throw an error if // it is. if (args.size() != 1) { *err = Err(function->function(), "Need exactly one string arg to template."); return Value(); } if (!args[0].VerifyTypeIs(Value::STRING, err)) return Value(); std::string template_name = args[0].string_value(); const FunctionCallNode* existing_template = scope->GetTemplate(template_name); if (existing_template) { *err = Err(function, "Duplicate template definition.", "A template with this name was already defined."); err->AppendSubErr(Err(existing_template->function(), "Previous definition.")); return Value(); } scope->AddTemplate(template_name, function); return Value(); } } // namespace functions