cras/src/tests/expr_unittest.cc - platform/external/adhd - Git at Google

 // Copyright (c) 2012 The Chromium OS 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 <gtest/gtest.h>

 #include "cras_expr.h"

 namespace {

 TEST(ExprTest, UnparsibleExpression) {
   struct cras_expr_expression* expr;

   /* un-parsable input */
   expr = cras_expr_expression_parse("#");
   EXPECT_EQ(NULL, expr);

   expr = cras_expr_expression_parse(NULL);
   EXPECT_EQ(NULL, expr);

   cras_expr_expression_free(expr);
 }

 TEST(ExprTest, LiteralExpression) {
   struct cras_expr_expression* expr;
   struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;
   struct cras_expr_env env = CRAS_EXPR_ENV_INIT;
   int integer = 0;

   /* parse integer literal */
   expr = cras_expr_expression_parse(" -2");
   EXPECT_EQ(EXPR_TYPE_LITERAL, expr->type);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_INT, expr->u.literal.type);
   EXPECT_EQ(-2, expr->u.literal.u.integer);

   /* evaluate integer literal */
   cras_expr_expression_eval(expr, &env, &value);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_INT, value.type);
   EXPECT_EQ(-2, value.u.integer);

   EXPECT_EQ(0, cras_expr_expression_eval_int(expr, &env, &integer));
   EXPECT_EQ(-2, integer);
   cras_expr_expression_free(expr);

   /* parse string literal */
   expr = cras_expr_expression_parse("\"hello\" ");
   EXPECT_EQ(EXPR_TYPE_LITERAL, expr->type);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_STRING, expr->u.literal.type);
   EXPECT_STREQ("hello", expr->u.literal.u.string);

   /* evaluate string literal */
   cras_expr_expression_eval(expr, &env, &value);
   ASSERT_EQ(CRAS_EXPR_VALUE_TYPE_STRING, value.type);
   EXPECT_STREQ("hello", value.u.string);

   cras_expr_value_free(&value);
   cras_expr_expression_free(expr);
   cras_expr_env_free(&env);
 }

 TEST(ExprTest, Variable) {
   struct cras_expr_expression* expr;
   struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;
   struct cras_expr_env env = CRAS_EXPR_ENV_INIT;
   int integer = 0;

   /* parse variable */
   expr = cras_expr_expression_parse("a");
   ASSERT_EQ(EXPR_TYPE_VARIABLE, expr->type);
   EXPECT_STREQ("a", expr->u.variable);

   /* evaluate variable (undefined now) */
   cras_expr_expression_eval(expr, &env, &value);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_NONE, value.type);

   /* undefined variable */
   EXPECT_EQ(-1, cras_expr_expression_eval_int(expr, &env, &integer));

   /* now define a variable with integer value 2 */
   cras_expr_env_set_variable_integer(&env, "a", 2);

   /* re-evaluate the variable */
   EXPECT_EQ(0, cras_expr_expression_eval_int(expr, &env, &integer));
   EXPECT_EQ(2, integer);

   cras_expr_value_free(&value);
   cras_expr_expression_free(expr);
   cras_expr_env_free(&env);
 }

 TEST(ExprTest, Compound) {
   struct cras_expr_expression *expr, *expr1, *expr2;
   struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;
   struct cras_expr_env env = CRAS_EXPR_ENV_INIT;

   /* parse empty compound expression */
   expr = cras_expr_expression_parse("()");
   ASSERT_EQ(EXPR_TYPE_COMPOUND, expr->type);
   EXPECT_EQ(0, ARRAY_COUNT(&expr->u.children));

   /* evaluate empty compound expression */
   cras_expr_expression_eval(expr, &env, &value);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_NONE, value.type);
   cras_expr_expression_free(expr);

   /* parse non-empty compound expression */
   expr = cras_expr_expression_parse("(foo bar)");
   ASSERT_EQ(EXPR_TYPE_COMPOUND, expr->type);
   EXPECT_EQ(2, ARRAY_COUNT(&expr->u.children));

   /* evaluate non-empty compound expression */
   cras_expr_expression_eval(expr, &env, &value);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_NONE, value.type);
   cras_expr_expression_free(expr);

   /* parse nested compound expression */
   expr = cras_expr_expression_parse("((foo 3)bar )");
   ASSERT_EQ(EXPR_TYPE_COMPOUND, expr->type);
   ASSERT_EQ(2, ARRAY_COUNT(&expr->u.children));

   expr1 = *ARRAY_ELEMENT(&expr->u.children, 0);
   ASSERT_EQ(EXPR_TYPE_COMPOUND, expr1->type);
   ASSERT_EQ(2, ARRAY_COUNT(&expr1->u.children));

   expr2 = *ARRAY_ELEMENT(&expr1->u.children, 1);
   ASSERT_EQ(EXPR_TYPE_LITERAL, expr2->type);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_INT, expr2->u.literal.type);
   EXPECT_EQ(3, expr2->u.literal.u.integer);

   /* evaluate nested compound expression */
   cras_expr_expression_eval(expr, &env, &value);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_NONE, value.type);
   cras_expr_expression_free(expr);

   cras_expr_value_free(&value);
   cras_expr_env_free(&env);
 }

 TEST(ExprTest, Environment) {
   struct cras_expr_expression* expr;
   struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;
   struct cras_expr_env env1 = CRAS_EXPR_ENV_INIT;
   struct cras_expr_env env2 = CRAS_EXPR_ENV_INIT;
   int integer = 0;
   char boolean = 0;

   /* parse variable */
   expr = cras_expr_expression_parse("baz");

   /* put baz=4 into env1 */
   cras_expr_env_set_variable_integer(&env1, "baz", 4);

   /* evaluate expr against env1 and env2 */
   EXPECT_EQ(0, cras_expr_expression_eval_int(expr, &env1, &integer));
   EXPECT_EQ(4, integer);
   EXPECT_EQ(-1, cras_expr_expression_eval_int(expr, &env2, &integer));

   /* put baz=5 into env2 */
   cras_expr_env_set_variable_integer(&env2, "baz", 5);

   /* evaluate again */
   EXPECT_EQ(0, cras_expr_expression_eval_int(expr, &env1, &integer));
   EXPECT_EQ(4, integer);
   EXPECT_EQ(0, cras_expr_expression_eval_int(expr, &env2, &integer));
   EXPECT_EQ(5, integer);

   /* an integer is not a boolean */
   EXPECT_EQ(-1, cras_expr_expression_eval_boolean(expr, &env2, &boolean));

   cras_expr_value_free(&value);
   cras_expr_expression_free(expr);
   cras_expr_env_free(&env1);
   cras_expr_env_free(&env2);
 }

 static void expect_int(int expected,
                        const char* str,
                        struct cras_expr_env* env) {
   struct cras_expr_expression* expr;
   struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;

   expr = cras_expr_expression_parse(str);
   cras_expr_expression_eval(expr, env, &value);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_INT, value.type);
   EXPECT_EQ(expected, value.u.integer);
   cras_expr_expression_free(expr);
 }

 static void expect_boolean(char expected,
                            const char* str,
                            struct cras_expr_env* env) {
   struct cras_expr_expression* expr;
   struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;

   expr = cras_expr_expression_parse(str);
   cras_expr_expression_eval(expr, env, &value);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_BOOLEAN, value.type);
   EXPECT_EQ(expected, value.u.boolean);
   cras_expr_expression_free(expr);
 }

 TEST(ExprTest, Builtin) {
   struct cras_expr_expression* expr;
   struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;
   struct cras_expr_env env = CRAS_EXPR_ENV_INIT;

   cras_expr_env_install_builtins(&env);

   /* parse variable */
   expr = cras_expr_expression_parse("or");
   cras_expr_expression_eval(expr, &env, &value);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_FUNCTION, value.type);
   cras_expr_expression_free(expr);

   /* test builtin functions */
   expect_boolean(1, "(and)", &env);
   expect_boolean(1, "(and #t)", &env);
   expect_boolean(1, "(and #t #t)", &env);
   expect_int(3, "(and 1 2 3)", &env);
   expect_boolean(0, "(and #f 4)", &env);
   expect_boolean(0, "(or)", &env);
   expect_boolean(1, "(or #t)", &env);
   expect_boolean(0, "(or #f #f)", &env);
   expect_int(2, "(or #f #f 2)", &env);
   expect_int(3, "(or #f (or 3))", &env);
   expect_boolean(0, "(equal? \"hello\" 3)", &env);
   expect_boolean(1, "(equal? \"hello\" \"hello\")", &env);

   /* a more complex example a="hello" b="world"*/
   expr = cras_expr_expression_parse("(or (equal? \"test\" a) b)");
   cras_expr_env_set_variable_string(&env, "a", "hello");
   cras_expr_env_set_variable_string(&env, "b", "world");

   cras_expr_expression_eval(expr, &env, &value);
   EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_STRING, value.type);
   EXPECT_STREQ("world", value.u.string);
   cras_expr_expression_free(expr);

   cras_expr_value_free(&value);
   cras_expr_env_free(&env);
 }

 }  //  namespace

 int main(int argc, char** argv) {
   ::testing::InitGoogleTest(&argc, argv);
   return RUN_ALL_TESTS();
 }
	// Copyright (c) 2012 The Chromium OS 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 <gtest/gtest.h>

	#include "cras_expr.h"

	namespace {

	TEST(ExprTest, UnparsibleExpression) {
	struct cras_expr_expression* expr;

	/* un-parsable input */
	expr = cras_expr_expression_parse("#");
	EXPECT_EQ(NULL, expr);

	expr = cras_expr_expression_parse(NULL);
	EXPECT_EQ(NULL, expr);

	cras_expr_expression_free(expr);
	}

	TEST(ExprTest, LiteralExpression) {
	struct cras_expr_expression* expr;
	struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;
	struct cras_expr_env env = CRAS_EXPR_ENV_INIT;
	int integer = 0;

	/* parse integer literal */
	expr = cras_expr_expression_parse(" -2");
	EXPECT_EQ(EXPR_TYPE_LITERAL, expr->type);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_INT, expr->u.literal.type);
	EXPECT_EQ(-2, expr->u.literal.u.integer);

	/* evaluate integer literal */
	cras_expr_expression_eval(expr, &env, &value);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_INT, value.type);
	EXPECT_EQ(-2, value.u.integer);

	EXPECT_EQ(0, cras_expr_expression_eval_int(expr, &env, &integer));
	EXPECT_EQ(-2, integer);
	cras_expr_expression_free(expr);

	/* parse string literal */
	expr = cras_expr_expression_parse("\"hello\" ");
	EXPECT_EQ(EXPR_TYPE_LITERAL, expr->type);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_STRING, expr->u.literal.type);
	EXPECT_STREQ("hello", expr->u.literal.u.string);

	/* evaluate string literal */
	cras_expr_expression_eval(expr, &env, &value);
	ASSERT_EQ(CRAS_EXPR_VALUE_TYPE_STRING, value.type);
	EXPECT_STREQ("hello", value.u.string);

	cras_expr_value_free(&value);
	cras_expr_expression_free(expr);
	cras_expr_env_free(&env);
	}

	TEST(ExprTest, Variable) {
	struct cras_expr_expression* expr;
	struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;
	struct cras_expr_env env = CRAS_EXPR_ENV_INIT;
	int integer = 0;

	/* parse variable */
	expr = cras_expr_expression_parse("a");
	ASSERT_EQ(EXPR_TYPE_VARIABLE, expr->type);
	EXPECT_STREQ("a", expr->u.variable);

	/* evaluate variable (undefined now) */
	cras_expr_expression_eval(expr, &env, &value);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_NONE, value.type);

	/* undefined variable */
	EXPECT_EQ(-1, cras_expr_expression_eval_int(expr, &env, &integer));

	/* now define a variable with integer value 2 */
	cras_expr_env_set_variable_integer(&env, "a", 2);

	/* re-evaluate the variable */
	EXPECT_EQ(0, cras_expr_expression_eval_int(expr, &env, &integer));
	EXPECT_EQ(2, integer);

	cras_expr_value_free(&value);
	cras_expr_expression_free(expr);
	cras_expr_env_free(&env);
	}

	TEST(ExprTest, Compound) {
	struct cras_expr_expression expr, expr1, *expr2;
	struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;
	struct cras_expr_env env = CRAS_EXPR_ENV_INIT;

	/* parse empty compound expression */
	expr = cras_expr_expression_parse("()");
	ASSERT_EQ(EXPR_TYPE_COMPOUND, expr->type);
	EXPECT_EQ(0, ARRAY_COUNT(&expr->u.children));

	/* evaluate empty compound expression */
	cras_expr_expression_eval(expr, &env, &value);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_NONE, value.type);
	cras_expr_expression_free(expr);

	/* parse non-empty compound expression */
	expr = cras_expr_expression_parse("(foo bar)");
	ASSERT_EQ(EXPR_TYPE_COMPOUND, expr->type);
	EXPECT_EQ(2, ARRAY_COUNT(&expr->u.children));

	/* evaluate non-empty compound expression */
	cras_expr_expression_eval(expr, &env, &value);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_NONE, value.type);
	cras_expr_expression_free(expr);

	/* parse nested compound expression */
	expr = cras_expr_expression_parse("((foo 3)bar )");
	ASSERT_EQ(EXPR_TYPE_COMPOUND, expr->type);
	ASSERT_EQ(2, ARRAY_COUNT(&expr->u.children));

	expr1 = *ARRAY_ELEMENT(&expr->u.children, 0);
	ASSERT_EQ(EXPR_TYPE_COMPOUND, expr1->type);
	ASSERT_EQ(2, ARRAY_COUNT(&expr1->u.children));

	expr2 = *ARRAY_ELEMENT(&expr1->u.children, 1);
	ASSERT_EQ(EXPR_TYPE_LITERAL, expr2->type);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_INT, expr2->u.literal.type);
	EXPECT_EQ(3, expr2->u.literal.u.integer);

	/* evaluate nested compound expression */
	cras_expr_expression_eval(expr, &env, &value);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_NONE, value.type);
	cras_expr_expression_free(expr);

	cras_expr_value_free(&value);
	cras_expr_env_free(&env);
	}

	TEST(ExprTest, Environment) {
	struct cras_expr_expression* expr;
	struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;
	struct cras_expr_env env1 = CRAS_EXPR_ENV_INIT;
	struct cras_expr_env env2 = CRAS_EXPR_ENV_INIT;
	int integer = 0;
	char boolean = 0;

	/* parse variable */
	expr = cras_expr_expression_parse("baz");

	/* put baz=4 into env1 */
	cras_expr_env_set_variable_integer(&env1, "baz", 4);

	/* evaluate expr against env1 and env2 */
	EXPECT_EQ(0, cras_expr_expression_eval_int(expr, &env1, &integer));
	EXPECT_EQ(4, integer);
	EXPECT_EQ(-1, cras_expr_expression_eval_int(expr, &env2, &integer));

	/* put baz=5 into env2 */
	cras_expr_env_set_variable_integer(&env2, "baz", 5);

	/* evaluate again */
	EXPECT_EQ(0, cras_expr_expression_eval_int(expr, &env1, &integer));
	EXPECT_EQ(4, integer);
	EXPECT_EQ(0, cras_expr_expression_eval_int(expr, &env2, &integer));
	EXPECT_EQ(5, integer);

	/* an integer is not a boolean */
	EXPECT_EQ(-1, cras_expr_expression_eval_boolean(expr, &env2, &boolean));

	cras_expr_value_free(&value);
	cras_expr_expression_free(expr);
	cras_expr_env_free(&env1);
	cras_expr_env_free(&env2);
	}

	static void expect_int(int expected,
	const char* str,
	struct cras_expr_env* env) {
	struct cras_expr_expression* expr;
	struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;

	expr = cras_expr_expression_parse(str);
	cras_expr_expression_eval(expr, env, &value);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_INT, value.type);
	EXPECT_EQ(expected, value.u.integer);
	cras_expr_expression_free(expr);
	}

	static void expect_boolean(char expected,
	const char* str,
	struct cras_expr_env* env) {
	struct cras_expr_expression* expr;
	struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;

	expr = cras_expr_expression_parse(str);
	cras_expr_expression_eval(expr, env, &value);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_BOOLEAN, value.type);
	EXPECT_EQ(expected, value.u.boolean);
	cras_expr_expression_free(expr);
	}

	TEST(ExprTest, Builtin) {
	struct cras_expr_expression* expr;
	struct cras_expr_value value = CRAS_EXPR_VALUE_INIT;
	struct cras_expr_env env = CRAS_EXPR_ENV_INIT;

	cras_expr_env_install_builtins(&env);

	/* parse variable */
	expr = cras_expr_expression_parse("or");
	cras_expr_expression_eval(expr, &env, &value);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_FUNCTION, value.type);
	cras_expr_expression_free(expr);

	/* test builtin functions */
	expect_boolean(1, "(and)", &env);
	expect_boolean(1, "(and #t)", &env);
	expect_boolean(1, "(and #t #t)", &env);
	expect_int(3, "(and 1 2 3)", &env);
	expect_boolean(0, "(and #f 4)", &env);
	expect_boolean(0, "(or)", &env);
	expect_boolean(1, "(or #t)", &env);
	expect_boolean(0, "(or #f #f)", &env);
	expect_int(2, "(or #f #f 2)", &env);
	expect_int(3, "(or #f (or 3))", &env);
	expect_boolean(0, "(equal? \"hello\" 3)", &env);
	expect_boolean(1, "(equal? \"hello\" \"hello\")", &env);

	/* a more complex example a="hello" b="world"*/
	expr = cras_expr_expression_parse("(or (equal? \"test\" a) b)");
	cras_expr_env_set_variable_string(&env, "a", "hello");
	cras_expr_env_set_variable_string(&env, "b", "world");

	cras_expr_expression_eval(expr, &env, &value);
	EXPECT_EQ(CRAS_EXPR_VALUE_TYPE_STRING, value.type);
	EXPECT_STREQ("world", value.u.string);
	cras_expr_expression_free(expr);

	cras_expr_value_free(&value);
	cras_expr_env_free(&env);
	}

	} // namespace

	int main(int argc, char** argv) {
	::testing::InitGoogleTest(&argc, argv);
	return RUN_ALL_TESTS();
	}