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243 lines
9.3 KiB
C++
243 lines
9.3 KiB
C++
// Copyright 2014 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "tools/gn/err.h"
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#include "tools/gn/functions.h"
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#include "tools/gn/parse_tree.h"
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#include "tools/gn/scope.h"
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namespace functions {
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namespace {
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void ForwardAllValues(const FunctionCallNode* function,
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Scope* source,
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Scope* dest,
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const std::set<std::string>& exclusion_set,
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Err* err) {
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Scope::MergeOptions options;
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// This function needs to clobber existing for it to be useful. It will be
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// called in a template to forward all values, but there will be some
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// default stuff like configs set up in both scopes, so it would always
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// fail if it didn't clobber.
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options.clobber_existing = true;
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options.skip_private_vars = true;
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options.mark_dest_used = false;
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options.excluded_values = exclusion_set;
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source->NonRecursiveMergeTo(dest, options, function,
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"source scope", err);
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source->MarkAllUsed();
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}
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void ForwardValuesFromList(Scope* source,
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Scope* dest,
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const std::vector<Value>& list,
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const std::set<std::string>& exclusion_set,
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Err* err) {
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for (const Value& cur : list) {
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if (!cur.VerifyTypeIs(Value::STRING, err))
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return;
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if (exclusion_set.find(cur.string_value()) != exclusion_set.end())
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continue;
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const Value* value = source->GetValue(cur.string_value(), true);
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if (value) {
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// Use the storage key for the original value rather than the string in
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// "cur" because "cur" is a temporary that will be deleted, and Scopes
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// expect a persistent StringPiece (it won't copy). Not doing this will
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// lead the scope's key to point to invalid memory after this returns.
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base::StringPiece storage_key = source->GetStorageKey(cur.string_value());
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if (storage_key.empty()) {
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// Programmatic value, don't allow copying.
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*err = Err(cur, "This value can't be forwarded.",
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"The variable \"" + cur.string_value() + "\" is a built-in.");
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return;
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}
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// Don't allow clobbering existing values.
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const Value* existing_value = dest->GetValue(storage_key);
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if (existing_value) {
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*err = Err(cur, "Clobbering existing value.",
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"The current scope already defines a value \"" +
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cur.string_value() + "\".\nforward_variables_from() won't clobber "
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"existing values. If you want to\nmerge lists, you'll need to "
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"do this explicitly.");
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err->AppendSubErr(Err(*existing_value, "value being clobbered."));
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return;
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}
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// Keep the origin information from the original value. The normal
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// usage is for this to be used in a template, and if there's an error,
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// the user expects to see the line where they set the variable
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// blamed, rather than a template call to forward_variables_from().
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dest->SetValue(storage_key, *value, value->origin());
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}
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}
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}
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} // namespace
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const char kForwardVariablesFrom[] = "forward_variables_from";
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const char kForwardVariablesFrom_HelpShort[] =
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"forward_variables_from: Copies variables from a different scope.";
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const char kForwardVariablesFrom_Help[] =
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R"(forward_variables_from: Copies variables from a different scope.
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forward_variables_from(from_scope, variable_list_or_star,
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variable_to_not_forward_list = [])
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Copies the given variables from the given scope to the local scope if they
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exist. This is normally used in the context of templates to use the values of
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variables defined in the template invocation to a template-defined target.
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The variables in the given variable_list will be copied if they exist in the
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given scope or any enclosing scope. If they do not exist, nothing will happen
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and they be left undefined in the current scope.
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As a special case, if the variable_list is a string with the value of "*",
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all variables from the given scope will be copied. "*" only copies variables
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set directly on the from_scope, not enclosing ones. Otherwise it would
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duplicate all global variables.
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When an explicit list of variables is supplied, if the variable exists in the
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current (destination) scope already, an error will be thrown. If "*" is
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specified, variables in the current scope will be clobbered (the latter is
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important because most targets have an implicit configs list, which means it
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wouldn't work at all if it didn't clobber).
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The sources assignment filter (see "gn help "
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"set_sources_assignment_filter")
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is never applied by this function. It's assumed than any desired filtering
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was already done when sources was set on the from_scope.
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If variables_to_not_forward_list is non-empty, then it must contains a list
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of variable names that will not be forwarded. This is mostly useful when
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variable_list_or_star has a value of "*".
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Examples
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# This is a common action template. It would invoke a script with some given
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# parameters, and wants to use the various types of deps and the visibility
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# from the invoker if it's defined. It also injects an additional dependency
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# to all targets.
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template("my_test") {
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action(target_name) {
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forward_variables_from(invoker, [ "data_deps", "deps",
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"public_deps", "visibility" "
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"])
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# Add our test code to the dependencies.
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# "deps" may or may not be defined at this point.
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if (defined(deps)) {
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deps += [ "//tools/doom_melon" ]
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} else {
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deps = [ "//tools/doom_melon" ]
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}
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}
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}
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# This is a template around either a target whose type depends on a global
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# variable. It forwards all values from the invoker.
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template("my_wrapper") {
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target(my_wrapper_target_type, target_name) {
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forward_variables_from(invoker, "*")
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}
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}
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# A template that wraps another. It adds behavior based on one
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# variable, and forwards all others to the nested target.
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template("my_ios_test_app") {
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ios_test_app(target_name) {
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forward_variables_from(invoker, "*", ["test_bundle_name"])
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if (!defined(extra_substitutions)) {
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extra_substitutions = []
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}
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extra_substitutions += [ "BUNDLE_ID_TEST_NAME=$test_bundle_name" ]
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}
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}
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)";
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// This function takes a ListNode rather than a resolved vector of values
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// both avoid copying the potentially-large source scope, and so the variables
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// in the source scope can be marked as used.
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Value RunForwardVariablesFrom(Scope* scope,
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const FunctionCallNode* function,
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const ListNode* args_list,
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Err* err) {
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const auto& args_vector = args_list->contents();
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if (args_vector.size() != 2 && args_vector.size() != 3) {
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*err = Err(function, "Wrong number of arguments.",
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"Expecting two or three arguments.");
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return Value();
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}
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Value* value = nullptr; // Value to use, may point to result_value.
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Value result_value; // Storage for the "evaluate" case.
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const IdentifierNode* identifier = args_vector[0]->AsIdentifier();
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if (identifier) {
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// Optimize the common case where the input scope is an identifier. This
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// prevents a copy of a potentially large Scope object.
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value = scope->GetMutableValue(identifier->value().value(),
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Scope::SEARCH_NESTED, true);
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if (!value) {
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*err = Err(identifier, "Undefined identifier.");
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return Value();
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}
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} else {
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// Non-optimized case, just evaluate the argument.
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result_value = args_vector[0]->Execute(scope, err);
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if (err->has_error())
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return Value();
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value = &result_value;
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}
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// Extract the source scope.
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if (!value->VerifyTypeIs(Value::SCOPE, err))
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return Value();
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Scope* source = value->scope_value();
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// Extract the exclusion list if defined.
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std::set<std::string> exclusion_set;
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if (args_vector.size() == 3) {
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Value exclusion_value = args_vector[2]->Execute(scope, err);
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if (err->has_error())
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return Value();
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if (exclusion_value.type() != Value::LIST) {
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*err = Err(exclusion_value, "Not a valid list of variables to exclude.",
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"Expecting a list of strings.");
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return Value();
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}
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for (const Value& cur : exclusion_value.list_value()) {
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if (!cur.VerifyTypeIs(Value::STRING, err))
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return Value();
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exclusion_set.insert(cur.string_value());
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}
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}
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// Extract the list. If all_values is not set, the what_value will be a list.
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Value what_value = args_vector[1]->Execute(scope, err);
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if (err->has_error())
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return Value();
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if (what_value.type() == Value::STRING) {
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if (what_value.string_value() == "*") {
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ForwardAllValues(function, source, scope, exclusion_set, err);
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return Value();
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}
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} else {
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if (what_value.type() == Value::LIST) {
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ForwardValuesFromList(source, scope, what_value.list_value(),
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exclusion_set, err);
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return Value();
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}
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}
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// Not the right type of argument.
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*err = Err(what_value, "Not a valid list of variables to copy.",
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"Expecting either the string \"*\" or a list of strings.");
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return Value();
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}
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} // namespace functions
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