src/gn/functions_unittest.cc - gn - Git at Google

 // Copyright 2014 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 "gn/functions.h"

 #include <memory>
 #include <utility>

 #include "gn/parse_tree.h"
 #include "gn/test_with_scope.h"
 #include "gn/value.h"
 #include "util/test/test.h"

 TEST(Functions, Assert) {
   TestWithScope setup;

   // Verify cases where the assertion passes.
   std::vector<std::string> assert_pass_examples = {
     R"gn(assert(true))gn",
     R"gn(assert(true, "This message is ignored for passed assertions."))gn",
   };
   for (const auto& assert_pass_example : assert_pass_examples) {
     TestParseInput input(assert_pass_example);
     ASSERT_FALSE(input.has_error());
     Err err;
     input.parsed()->Execute(setup.scope(), &err);
     ASSERT_FALSE(err.has_error()) << assert_pass_example;
   }

   // Verify case where the assertion fails, with no message.
   {
     TestParseInput input("assert(false)");
     ASSERT_FALSE(input.has_error());
     Err err;
     input.parsed()->Execute(setup.scope(), &err);
     ASSERT_TRUE(err.has_error());
     ASSERT_EQ(err.message(), "Assertion failed.");
   }

   // Verify case where the assertion fails, with a message.
   {
     TestParseInput input("assert(false, \"What failed\")");
     ASSERT_FALSE(input.has_error());
     Err err;
     input.parsed()->Execute(setup.scope(), &err);
     ASSERT_TRUE(err.has_error());
     ASSERT_EQ(err.message(), "Assertion failed.");
     ASSERT_EQ(err.help_text(), "What failed");
   }

   // Verify usage errors are detected.
   std::vector<std::string> bad_usage_examples = {
     // Number of arguments.
     R"gn(assert())gn",
     R"gn(assert(1, 2, 3))gn",

     // Argument types.
     R"gn(assert(1))gn",
     R"gn(assert("oops"))gn",
     R"gn(assert(true, 1))gn",
     R"gn(assert(true, []))gn",
   };
   for (const auto& bad_usage_example : bad_usage_examples) {
     TestParseInput input(bad_usage_example);
     ASSERT_FALSE(input.has_error());
     Err err;
     input.parsed()->Execute(setup.scope(), &err);
     ASSERT_TRUE(err.has_error()) << bad_usage_example;
     // We are checking for usage errors, not assertion failures.
     ASSERT_NE(err.message(), "Assertion failed.") << bad_usage_example;
   }
 }

 TEST(Functions, Defined) {
   TestWithScope setup;

   FunctionCallNode function_call;
   Err err;

   // Test an undefined identifier.
   Token undefined_token(Location(), Token::IDENTIFIER, "undef");
   ListNode args_list_identifier_undefined;
   args_list_identifier_undefined.append_item(
       std::make_unique<IdentifierNode>(undefined_token));
   Value result = functions::RunDefined(setup.scope(), &function_call,
                                        &args_list_identifier_undefined, &err);
   ASSERT_EQ(Value::BOOLEAN, result.type());
   EXPECT_FALSE(result.boolean_value());

   // Define a value that's itself a scope value.
   const char kDef[] = "def";  // Defined variable name.
   setup.scope()->SetValue(
       kDef, Value(nullptr, std::make_unique<Scope>(setup.scope())), nullptr);

   // Test the defined identifier.
   Token defined_token(Location(), Token::IDENTIFIER, kDef);
   ListNode args_list_identifier_defined;
   args_list_identifier_defined.append_item(
       std::make_unique<IdentifierNode>(defined_token));
   result = functions::RunDefined(setup.scope(), &function_call,
                                  &args_list_identifier_defined, &err);
   ASSERT_EQ(Value::BOOLEAN, result.type());
   EXPECT_TRUE(result.boolean_value());

   // Should also work by passing an accessor node so you can do
   // "defined(def.foo)" to see if foo is defined on the def scope.
   std::unique_ptr<AccessorNode> undef_accessor =
       std::make_unique<AccessorNode>();
   undef_accessor->set_base(defined_token);
   undef_accessor->set_member(std::make_unique<IdentifierNode>(undefined_token));
   ListNode args_list_accessor_defined;
   args_list_accessor_defined.append_item(std::move(undef_accessor));
   result = functions::RunDefined(setup.scope(), &function_call,
                                  &args_list_accessor_defined, &err);
   ASSERT_EQ(Value::BOOLEAN, result.type());
   EXPECT_FALSE(result.boolean_value());
 }

 // Tests that an error is thrown when a {} is supplied to a function that
 // doesn't take one.
 TEST(Functions, FunctionsWithBlock) {
   TestWithScope setup;
   Err err;

   // No scope to print() is OK.
   TestParseInput print_no_scope("print(6)");
   EXPECT_FALSE(print_no_scope.has_error());
   Value result = print_no_scope.parsed()->Execute(setup.scope(), &err);
   EXPECT_FALSE(err.has_error());

   // Passing a scope should pass parsing (it doesn't know about what kind of
   // function it is) and then throw an error during execution.
   TestParseInput print_with_scope("print(foo) {}");
   EXPECT_FALSE(print_with_scope.has_error());
   result = print_with_scope.parsed()->Execute(setup.scope(), &err);
   EXPECT_TRUE(err.has_error());
   err = Err();

   // defined() is a special function so test it separately.
   TestParseInput defined_no_scope("defined(foo)");
   EXPECT_FALSE(defined_no_scope.has_error());
   result = defined_no_scope.parsed()->Execute(setup.scope(), &err);
   EXPECT_FALSE(err.has_error());

   // A block to defined should fail.
   TestParseInput defined_with_scope("defined(foo) {}");
   EXPECT_FALSE(defined_with_scope.has_error());
   result = defined_with_scope.parsed()->Execute(setup.scope(), &err);
   EXPECT_TRUE(err.has_error());
 }

 TEST(Functions, SplitList) {
   TestWithScope setup;

   TestParseInput input(
       // Empty input with varying result items.
       "out1 = split_list([], 1)\n"
       "out2 = split_list([], 3)\n"
       "print(\"empty = $out1 $out2\")\n"

       // One item input.
       "out3 = split_list([1], 1)\n"
       "out4 = split_list([1], 2)\n"
       "print(\"one = $out3 $out4\")\n"

       // Multiple items.
       "out5 = split_list([1, 2, 3, 4, 5, 6, 7, 8, 9], 2)\n"
       "print(\"many = $out5\")\n"

       // Rounding.
       "out6 = split_list([1, 2, 3, 4, 5, 6], 4)\n"
       "print(\"rounding = $out6\")\n");
   ASSERT_FALSE(input.has_error());

   Err err;
   input.parsed()->Execute(setup.scope(), &err);
   ASSERT_FALSE(err.has_error()) << err.message();

   EXPECT_EQ(
       "empty = [[]] [[], [], []]\n"
       "one = [[1]] [[1], []]\n"
       "many = [[1, 2, 3, 4, 5], [6, 7, 8, 9]]\n"
       "rounding = [[1, 2], [3, 4], [5], [6]]\n",
       setup.print_output());
 }

 TEST(Functions, StringJoin) {
   TestWithScope setup;

   // Verify outputs when string_join() is called correctly.
   {
     TestParseInput input(R"gn(
         # No elements in the list and empty separator.
         print("<" + string_join("", []) + ">")

         # No elements in the list.
         print("<" + string_join(" ", []) + ">")

         # One element in the list.
         print(string_join("|", ["a"]))

         # Multiple elements in the list.
         print(string_join(" ", ["a", "b", "c"]))

         # Multi-character separator.
         print(string_join("-.", ["a", "b", "c"]))

         # Empty separator.
         print(string_join("", ["x", "y", "z"]))

         # Empty string list elements.
         print(string_join("x", ["", "", ""]))

         # Empty string list elements and separator
         print(string_join("", ["", "", ""]))
         )gn");
     ASSERT_FALSE(input.has_error());

     Err err;
     input.parsed()->Execute(setup.scope(), &err);
     ASSERT_FALSE(err.has_error()) << err.message();

     EXPECT_EQ(
         "<>\n"
         "<>\n"
         "a\n"
         "a b c\n"
         "a-.b-.c\n"
         "xyz\n"
         "xx\n"
         "\n",
         setup.print_output()) << setup.print_output();
   }

   // Verify usage errors are detected.
   std::vector<std::string> bad_usage_examples = {
     // Number of arguments.
     R"gn(string_join())gn",
     R"gn(string_join(["oops"]))gn",
     R"gn(string_join("kk", [], "oops"))gn",

     // Argument types.
     R"gn(string_join(1, []))gn",
     R"gn(string_join("kk", "oops"))gn",
     R"gn(string_join(["oops"], []))gn",

     // Non-string elements in list of strings.
     R"gn(string_join("kk", [1]))gn",
     R"gn(string_join("kk", ["hello", 1]))gn",
     R"gn(string_join("kk", ["hello", []]))gn",
   };
   for (const auto& bad_usage_example : bad_usage_examples) {
     TestParseInput input(bad_usage_example);
     ASSERT_FALSE(input.has_error());

     Err err;
     input.parsed()->Execute(setup.scope(), &err);
     ASSERT_TRUE(err.has_error()) << bad_usage_example;
   }
 }

 TEST(Functions, StringReplace) {
   TestWithScope setup;

   TestParseInput input(
       // Replace all occurrences of string.
       "out1 = string_replace(\"abbcc\", \"b\", \"d\")\n"
       "print(out1)\n"

       // Replace only the first occurrence.
       "out2 = string_replace(\"abbcc\", \"b\", \"d\", 1)\n"
       "print(out2)\n"

       // Duplicate string to be replaced.
       "out3 = string_replace(\"abbcc\", \"b\", \"bb\")\n"
       "print(out3)\n"

       // Handle overlapping occurrences.
       "out4 = string_replace(\"aaa\", \"aa\", \"b\")\n"
       "print(out4)\n");
   ASSERT_FALSE(input.has_error());

   Err err;
   input.parsed()->Execute(setup.scope(), &err);
   ASSERT_FALSE(err.has_error()) << err.message();

   EXPECT_EQ(
       "addcc\n"
       "adbcc\n"
       "abbbbcc\n"
       "ba\n",
       setup.print_output());
 }

 TEST(Functions, StringSplit) {
   TestWithScope setup;

   // Verify outputs when string_join() is called correctly.
   {
     TestParseInput input(R"gn(
         # Split on all whitespace: empty string.
         print(string_split(""))

         # Split on all whitespace: string is only whitespace
         print(string_split("      "))

         # Split on all whitespace: leading, trailing, runs; one element.
         print(string_split("hello"))
         print(string_split("  hello"))
         print(string_split("  hello   "))
         print(string_split("hello   "))

         # Split on all whitespace: leading, trailing, runs; multiple elements.
         print(string_split("a b"))          # Pre-stripped
         print(string_split("  a b"))        # Leading whitespace
         print(string_split("  a b  "))      # Leading & trailing whitespace
         print(string_split("a b  "))        # Trailing whitespace
         print(string_split("a  b  "))       # Whitespace run between words
         print(string_split(" a b cc ddd"))  # More & multi-character elements

         # Split on string.
         print(string_split("", "|"))           # Empty string
         print(string_split("|", "|"))          # Only a separator
         print(string_split("||", "|"))         # Only separators
         print(string_split("ab", "|"))         # String is missing separator
         print(string_split("a|b", "|"))        # Two elements
         print(string_split("|a|b", "|"))       # Leading separator
         print(string_split("a|b|", "|"))       # Trailing separator
         print(string_split("||x", "|"))        # Leading consecutive separators
         print(string_split("x||", "|"))        # Trailing consecutive separators
         print(string_split("a|bb|ccc", "|"))   # Multiple elements
         print(string_split(".x.x.x.", ".x."))  # Self-overlapping separators 1
         print(string_split("x.x.x.", ".x."))   # Self-overlapping separators 2
         )gn");
     ASSERT_FALSE(input.has_error());

     Err err;
     input.parsed()->Execute(setup.scope(), &err);
     ASSERT_FALSE(err.has_error()) << err.message();

     EXPECT_EQ(
         // Split on all whitespace: empty string.
         "[]\n"

         // Split on all whitespace: string is only whitespace.
         "[]\n"

         // Split on all whitespace: leading, trailing, runs; one element.
         "[\"hello\"]\n"
         "[\"hello\"]\n"
         "[\"hello\"]\n"
         "[\"hello\"]\n"

         // Split on all whitespace: leading, trailing, runs; multiple elements.
         "[\"a\", \"b\"]\n"
         "[\"a\", \"b\"]\n"
         "[\"a\", \"b\"]\n"
         "[\"a\", \"b\"]\n"
         "[\"a\", \"b\"]\n"
         "[\"a\", \"b\", \"cc\", \"ddd\"]\n"

         // Split on string.
         "[\"\"]\n"                   // Empty string (like Python)
         "[\"\", \"\"]\n"             // Only a separator
         "[\"\", \"\", \"\"]\n"       // Only separators
         "[\"ab\"]\n"                 // String is missing separator
         "[\"a\", \"b\"]\n"           // Two elements
         "[\"\", \"a\", \"b\"]\n"     // Leading
         "[\"a\", \"b\", \"\"]\n"     // Trailing
         "[\"\", \"\", \"x\"]\n"      // Leading consecutive separators
         "[\"x\", \"\", \"\"]\n"      // Trailing consecutive separators
         "[\"a\", \"bb\", \"ccc\"]\n" // Multiple elements
         "[\"\", \"x\", \"\"]\n"      // Self-overlapping separators 1
         "[\"x\", \"x.\"]\n"          // Self-overlapping separators 2
         ,
         setup.print_output()) << setup.print_output();
   }

   // Verify usage errors are detected.
   std::vector<std::string> bad_usage_examples = {
     // Number of arguments.
     R"gn(string_split())gn",
     R"gn(string_split("a", "b", "c"))gn",

     // Argument types.
     R"gn(string_split(1))gn",
     R"gn(string_split(["oops"]))gn",
     R"gn(string_split("kk", 1))gn",
     R"gn(string_split("kk", ["oops"]))gn",

     // Empty separator argument.
     R"gn(string_split("kk", ""))gn",
   };
   for (const auto& bad_usage_example : bad_usage_examples) {
     TestParseInput input(bad_usage_example);
     ASSERT_FALSE(input.has_error());
     Err err;
     input.parsed()->Execute(setup.scope(), &err);
     ASSERT_TRUE(err.has_error()) << bad_usage_example;
   }
 }

 TEST(Functions, DeclareArgs) {
   TestWithScope setup;
   Err err;

   // It is not legal to read the value of an argument declared in a
   // declare_args() from inside the call, but outside the call and in
   // a separate call should work.

   TestParseInput reading_from_same_call(R"(
       declare_args() {
         foo = true
         bar = foo
       })");
   reading_from_same_call.parsed()->Execute(setup.scope(), &err);
   ASSERT_TRUE(err.has_error());

   TestParseInput reading_from_outside_call(R"(
       declare_args() {
         foo = true
       }

       bar = foo
       assert(bar)
       )");
   err = Err();
   reading_from_outside_call.parsed()->Execute(setup.scope(), &err);
   ASSERT_FALSE(err.has_error());

   TestParseInput reading_from_different_call(R"(
       declare_args() {
         foo = true
       }

       declare_args() {
         bar = foo
       }

       assert(bar)
       )");
   err = Err();
   TestWithScope setup2;
   reading_from_different_call.parsed()->Execute(setup2.scope(), &err);
   ASSERT_FALSE(err.has_error());
 }

 TEST(Functions, NotNeeded) {
   TestWithScope setup;

   TestParseInput input("not_needed({ a = 1 }, \"*\")");
   ASSERT_FALSE(input.has_error());

   Err err;
   input.parsed()->Execute(setup.scope(), &err);
   ASSERT_FALSE(err.has_error())
       << err.message() << err.location().Describe(true);
 }
	// Copyright 2014 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 "gn/functions.h"

	#include <memory>
	#include <utility>

	#include "gn/parse_tree.h"
	#include "gn/test_with_scope.h"
	#include "gn/value.h"
	#include "util/test/test.h"

	TEST(Functions, Assert) {
	TestWithScope setup;

	// Verify cases where the assertion passes.
	std::vector<std::string> assert_pass_examples = {
	R"gn(assert(true))gn",
	R"gn(assert(true, "This message is ignored for passed assertions."))gn",
	};
	for (const auto& assert_pass_example : assert_pass_examples) {
	TestParseInput input(assert_pass_example);
	ASSERT_FALSE(input.has_error());
	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_FALSE(err.has_error()) << assert_pass_example;
	}

	// Verify case where the assertion fails, with no message.
	{
	TestParseInput input("assert(false)");
	ASSERT_FALSE(input.has_error());
	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_TRUE(err.has_error());
	ASSERT_EQ(err.message(), "Assertion failed.");
	}

	// Verify case where the assertion fails, with a message.
	{
	TestParseInput input("assert(false, \"What failed\")");
	ASSERT_FALSE(input.has_error());
	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_TRUE(err.has_error());
	ASSERT_EQ(err.message(), "Assertion failed.");
	ASSERT_EQ(err.help_text(), "What failed");
	}

	// Verify usage errors are detected.
	std::vector<std::string> bad_usage_examples = {
	// Number of arguments.
	R"gn(assert())gn",
	R"gn(assert(1, 2, 3))gn",

	// Argument types.
	R"gn(assert(1))gn",
	R"gn(assert("oops"))gn",
	R"gn(assert(true, 1))gn",
	R"gn(assert(true, []))gn",
	};
	for (const auto& bad_usage_example : bad_usage_examples) {
	TestParseInput input(bad_usage_example);
	ASSERT_FALSE(input.has_error());
	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_TRUE(err.has_error()) << bad_usage_example;
	// We are checking for usage errors, not assertion failures.
	ASSERT_NE(err.message(), "Assertion failed.") << bad_usage_example;
	}
	}

	TEST(Functions, Defined) {
	TestWithScope setup;

	FunctionCallNode function_call;
	Err err;

	// Test an undefined identifier.
	Token undefined_token(Location(), Token::IDENTIFIER, "undef");
	ListNode args_list_identifier_undefined;
	args_list_identifier_undefined.append_item(
	std::make_unique<IdentifierNode>(undefined_token));
	Value result = functions::RunDefined(setup.scope(), &function_call,
	&args_list_identifier_undefined, &err);
	ASSERT_EQ(Value::BOOLEAN, result.type());
	EXPECT_FALSE(result.boolean_value());

	// Define a value that's itself a scope value.
	const char kDef[] = "def"; // Defined variable name.
	setup.scope()->SetValue(
	kDef, Value(nullptr, std::make_unique<Scope>(setup.scope())), nullptr);

	// Test the defined identifier.
	Token defined_token(Location(), Token::IDENTIFIER, kDef);
	ListNode args_list_identifier_defined;
	args_list_identifier_defined.append_item(
	std::make_unique<IdentifierNode>(defined_token));
	result = functions::RunDefined(setup.scope(), &function_call,
	&args_list_identifier_defined, &err);
	ASSERT_EQ(Value::BOOLEAN, result.type());
	EXPECT_TRUE(result.boolean_value());

	// Should also work by passing an accessor node so you can do
	// "defined(def.foo)" to see if foo is defined on the def scope.
	std::unique_ptr<AccessorNode> undef_accessor =
	std::make_unique<AccessorNode>();
	undef_accessor->set_base(defined_token);
	undef_accessor->set_member(std::make_unique<IdentifierNode>(undefined_token));
	ListNode args_list_accessor_defined;
	args_list_accessor_defined.append_item(std::move(undef_accessor));
	result = functions::RunDefined(setup.scope(), &function_call,
	&args_list_accessor_defined, &err);
	ASSERT_EQ(Value::BOOLEAN, result.type());
	EXPECT_FALSE(result.boolean_value());
	}

	// Tests that an error is thrown when a {} is supplied to a function that
	// doesn't take one.
	TEST(Functions, FunctionsWithBlock) {
	TestWithScope setup;
	Err err;

	// No scope to print() is OK.
	TestParseInput print_no_scope("print(6)");
	EXPECT_FALSE(print_no_scope.has_error());
	Value result = print_no_scope.parsed()->Execute(setup.scope(), &err);
	EXPECT_FALSE(err.has_error());

	// Passing a scope should pass parsing (it doesn't know about what kind of
	// function it is) and then throw an error during execution.
	TestParseInput print_with_scope("print(foo) {}");
	EXPECT_FALSE(print_with_scope.has_error());
	result = print_with_scope.parsed()->Execute(setup.scope(), &err);
	EXPECT_TRUE(err.has_error());
	err = Err();

	// defined() is a special function so test it separately.
	TestParseInput defined_no_scope("defined(foo)");
	EXPECT_FALSE(defined_no_scope.has_error());
	result = defined_no_scope.parsed()->Execute(setup.scope(), &err);
	EXPECT_FALSE(err.has_error());

	// A block to defined should fail.
	TestParseInput defined_with_scope("defined(foo) {}");
	EXPECT_FALSE(defined_with_scope.has_error());
	result = defined_with_scope.parsed()->Execute(setup.scope(), &err);
	EXPECT_TRUE(err.has_error());
	}

	TEST(Functions, SplitList) {
	TestWithScope setup;

	TestParseInput input(
	// Empty input with varying result items.
	"out1 = split_list([], 1)\n"
	"out2 = split_list([], 3)\n"
	"print(\"empty = $out1 $out2\")\n"

	// One item input.
	"out3 = split_list([1], 1)\n"
	"out4 = split_list([1], 2)\n"
	"print(\"one = $out3 $out4\")\n"

	// Multiple items.
	"out5 = split_list([1, 2, 3, 4, 5, 6, 7, 8, 9], 2)\n"
	"print(\"many = $out5\")\n"

	// Rounding.
	"out6 = split_list([1, 2, 3, 4, 5, 6], 4)\n"
	"print(\"rounding = $out6\")\n");
	ASSERT_FALSE(input.has_error());

	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_FALSE(err.has_error()) << err.message();

	EXPECT_EQ(
	"empty = [[]] [[], [], []]\n"
	"one = [[1]] [[1], []]\n"
	"many = [[1, 2, 3, 4, 5], [6, 7, 8, 9]]\n"
	"rounding = [[1, 2], [3, 4], [5], [6]]\n",
	setup.print_output());
	}

	TEST(Functions, StringJoin) {
	TestWithScope setup;

	// Verify outputs when string_join() is called correctly.
	{
	TestParseInput input(R"gn(
	# No elements in the list and empty separator.
	print("<" + string_join("", []) + ">")

	# No elements in the list.
	print("<" + string_join(" ", []) + ">")

	# One element in the list.
	print(string_join("\|", ["a"]))

	# Multiple elements in the list.
	print(string_join(" ", ["a", "b", "c"]))

	# Multi-character separator.
	print(string_join("-.", ["a", "b", "c"]))

	# Empty separator.
	print(string_join("", ["x", "y", "z"]))

	# Empty string list elements.
	print(string_join("x", ["", "", ""]))

	# Empty string list elements and separator
	print(string_join("", ["", "", ""]))
	)gn");
	ASSERT_FALSE(input.has_error());

	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_FALSE(err.has_error()) << err.message();

	EXPECT_EQ(
	"<>\n"
	"<>\n"
	"a\n"
	"a b c\n"
	"a-.b-.c\n"
	"xyz\n"
	"xx\n"
	"\n",
	setup.print_output()) << setup.print_output();
	}

	// Verify usage errors are detected.
	std::vector<std::string> bad_usage_examples = {
	// Number of arguments.
	R"gn(string_join())gn",
	R"gn(string_join(["oops"]))gn",
	R"gn(string_join("kk", [], "oops"))gn",

	// Argument types.
	R"gn(string_join(1, []))gn",
	R"gn(string_join("kk", "oops"))gn",
	R"gn(string_join(["oops"], []))gn",

	// Non-string elements in list of strings.
	R"gn(string_join("kk", [1]))gn",
	R"gn(string_join("kk", ["hello", 1]))gn",
	R"gn(string_join("kk", ["hello", []]))gn",
	};
	for (const auto& bad_usage_example : bad_usage_examples) {
	TestParseInput input(bad_usage_example);
	ASSERT_FALSE(input.has_error());

	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_TRUE(err.has_error()) << bad_usage_example;
	}
	}

	TEST(Functions, StringReplace) {
	TestWithScope setup;

	TestParseInput input(
	// Replace all occurrences of string.
	"out1 = string_replace(\"abbcc\", \"b\", \"d\")\n"
	"print(out1)\n"

	// Replace only the first occurrence.
	"out2 = string_replace(\"abbcc\", \"b\", \"d\", 1)\n"
	"print(out2)\n"

	// Duplicate string to be replaced.
	"out3 = string_replace(\"abbcc\", \"b\", \"bb\")\n"
	"print(out3)\n"

	// Handle overlapping occurrences.
	"out4 = string_replace(\"aaa\", \"aa\", \"b\")\n"
	"print(out4)\n");
	ASSERT_FALSE(input.has_error());

	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_FALSE(err.has_error()) << err.message();

	EXPECT_EQ(
	"addcc\n"
	"adbcc\n"
	"abbbbcc\n"
	"ba\n",
	setup.print_output());
	}

	TEST(Functions, StringSplit) {
	TestWithScope setup;

	// Verify outputs when string_join() is called correctly.
	{
	TestParseInput input(R"gn(
	# Split on all whitespace: empty string.
	print(string_split(""))

	# Split on all whitespace: string is only whitespace
	print(string_split(" "))

	# Split on all whitespace: leading, trailing, runs; one element.
	print(string_split("hello"))
	print(string_split(" hello"))
	print(string_split(" hello "))
	print(string_split("hello "))

	# Split on all whitespace: leading, trailing, runs; multiple elements.
	print(string_split("a b")) # Pre-stripped
	print(string_split(" a b")) # Leading whitespace
	print(string_split(" a b ")) # Leading & trailing whitespace
	print(string_split("a b ")) # Trailing whitespace
	print(string_split("a b ")) # Whitespace run between words
	print(string_split(" a b cc ddd")) # More & multi-character elements

	# Split on string.
	print(string_split("", "\|")) # Empty string
	print(string_split("\|", "\|")) # Only a separator
	print(string_split("\|\|", "\|")) # Only separators
	print(string_split("ab", "\|")) # String is missing separator
	print(string_split("a\|b", "\|")) # Two elements
	print(string_split("\|a\|b", "\|")) # Leading separator
	print(string_split("a\|b\|", "\|")) # Trailing separator
	print(string_split("\|\|x", "\|")) # Leading consecutive separators
	print(string_split("x\|\|", "\|")) # Trailing consecutive separators
	print(string_split("a\|bb\|ccc", "\|")) # Multiple elements
	print(string_split(".x.x.x.", ".x.")) # Self-overlapping separators 1
	print(string_split("x.x.x.", ".x.")) # Self-overlapping separators 2
	)gn");
	ASSERT_FALSE(input.has_error());

	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_FALSE(err.has_error()) << err.message();

	EXPECT_EQ(
	// Split on all whitespace: empty string.
	"[]\n"

	// Split on all whitespace: string is only whitespace.
	"[]\n"

	// Split on all whitespace: leading, trailing, runs; one element.
	"[\"hello\"]\n"
	"[\"hello\"]\n"
	"[\"hello\"]\n"
	"[\"hello\"]\n"

	// Split on all whitespace: leading, trailing, runs; multiple elements.
	"[\"a\", \"b\"]\n"
	"[\"a\", \"b\"]\n"
	"[\"a\", \"b\"]\n"
	"[\"a\", \"b\"]\n"
	"[\"a\", \"b\"]\n"
	"[\"a\", \"b\", \"cc\", \"ddd\"]\n"

	// Split on string.
	"[\"\"]\n" // Empty string (like Python)
	"[\"\", \"\"]\n" // Only a separator
	"[\"\", \"\", \"\"]\n" // Only separators
	"[\"ab\"]\n" // String is missing separator
	"[\"a\", \"b\"]\n" // Two elements
	"[\"\", \"a\", \"b\"]\n" // Leading
	"[\"a\", \"b\", \"\"]\n" // Trailing
	"[\"\", \"\", \"x\"]\n" // Leading consecutive separators
	"[\"x\", \"\", \"\"]\n" // Trailing consecutive separators
	"[\"a\", \"bb\", \"ccc\"]\n" // Multiple elements
	"[\"\", \"x\", \"\"]\n" // Self-overlapping separators 1
	"[\"x\", \"x.\"]\n" // Self-overlapping separators 2
	,
	setup.print_output()) << setup.print_output();
	}

	// Verify usage errors are detected.
	std::vector<std::string> bad_usage_examples = {
	// Number of arguments.
	R"gn(string_split())gn",
	R"gn(string_split("a", "b", "c"))gn",

	// Argument types.
	R"gn(string_split(1))gn",
	R"gn(string_split(["oops"]))gn",
	R"gn(string_split("kk", 1))gn",
	R"gn(string_split("kk", ["oops"]))gn",

	// Empty separator argument.
	R"gn(string_split("kk", ""))gn",
	};
	for (const auto& bad_usage_example : bad_usage_examples) {
	TestParseInput input(bad_usage_example);
	ASSERT_FALSE(input.has_error());
	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_TRUE(err.has_error()) << bad_usage_example;
	}
	}

	TEST(Functions, DeclareArgs) {
	TestWithScope setup;
	Err err;

	// It is not legal to read the value of an argument declared in a
	// declare_args() from inside the call, but outside the call and in
	// a separate call should work.

	TestParseInput reading_from_same_call(R"(
	declare_args() {
	foo = true
	bar = foo
	})");
	reading_from_same_call.parsed()->Execute(setup.scope(), &err);
	ASSERT_TRUE(err.has_error());

	TestParseInput reading_from_outside_call(R"(
	declare_args() {
	foo = true
	}

	bar = foo
	assert(bar)
	)");
	err = Err();
	reading_from_outside_call.parsed()->Execute(setup.scope(), &err);
	ASSERT_FALSE(err.has_error());

	TestParseInput reading_from_different_call(R"(
	declare_args() {
	foo = true
	}

	declare_args() {
	bar = foo
	}

	assert(bar)
	)");
	err = Err();
	TestWithScope setup2;
	reading_from_different_call.parsed()->Execute(setup2.scope(), &err);
	ASSERT_FALSE(err.has_error());
	}

	TEST(Functions, NotNeeded) {
	TestWithScope setup;

	TestParseInput input("not_needed({ a = 1 }, \"*\")");
	ASSERT_FALSE(input.has_error());

	Err err;
	input.parsed()->Execute(setup.scope(), &err);
	ASSERT_FALSE(err.has_error())
	<< err.message() << err.location().Describe(true);
	}