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conky/tests/test-common.cc
Travis Yaeger 0ca4a26d3b Remove unused variable
Was failing Test because warnings were being treated as errors.
2019-06-02 13:25:02 -04:00

245 lines
7.6 KiB
C++

/*
*
* Conky, a system monitor, based on torsmo
*
* Any original torsmo code is licensed under the BSD license
*
* All code written since the fork of torsmo is licensed under the GPL
*
* Please see COPYING for details
*
* Copyright (c) 2005-2019 Brenden Matthews, Philip Kovacs, et. al.
* (see AUTHORS)
* All rights reserved.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
#define CATCH_CONFIG_MAIN // This tells Catch to provide a main() - only do
// this in one cpp file
#include "catch2/catch.hpp"
#include <common.h>
#include <conky.h>
extern char **environ;
std::string get_valid_environment_variable_name() {
if (getenv("HOME") != nullptr) { return "HOME"; }
// If HOME is not a valid environment variable name, try to get a valid one.
char *env_var = *environ;
for (int i = 1; env_var; i++) {
std::string variable_name(env_var);
int variable_name_length = variable_name.find('=');
variable_name = variable_name.substr(0, variable_name_length);
if (getenv(variable_name.c_str()) != nullptr) { return variable_name; }
env_var = *(environ + i);
}
return "";
}
std::string get_invalid_environment_variable_name() {
std::string variable_name = "INVALIDVARIABLENAME";
while (getenv(variable_name.c_str()) != nullptr) {
variable_name += std::to_string(variable_name.length());
}
return variable_name;
}
TEST_CASE("to_real_path becomes homedir", "[to_real_path]") {
REQUIRE(to_real_path("~/test") == std::string(getenv("HOME")) + "/test");
}
TEST_CASE("environment variables are substituted correctly",
"[variable_substitute]") {
std::string valid_name = get_valid_environment_variable_name();
std::string valid_value = getenv(valid_name.c_str());
std::string invalid_name = get_invalid_environment_variable_name();
SECTION("an empty string input returns an empty string") {
REQUIRE(variable_substitute("") == "");
}
SECTION("string in with no $ returns same string") {
std::string string_alpha = "abcdefghijklmnopqrstuvwxyz";
std::string string_numbers = "1234567890";
std::string string_special = "`~!@#$%^&*()-=_+[]{}\\|;:'\",<.>/?";
std::string string_valid_name = valid_name;
REQUIRE(variable_substitute(string_alpha) == string_alpha);
REQUIRE(variable_substitute(string_numbers) == string_numbers);
REQUIRE(variable_substitute(string_special) == string_special);
REQUIRE(variable_substitute(string_valid_name) == string_valid_name);
}
SECTION("invalid variables are removed from return string") {
std::string string_in_1 = "a$" + invalid_name + " z";
std::string string_in_2 = "a${" + invalid_name + "} z";
std::string string_in_3 = "a${" + invalid_name + " " + valid_name + "} z";
std::string string_in_4 = "a${ " + valid_name + "} z";
std::string string_in_5 = "a${" + valid_name + " } z";
std::string string_in_6 = "a$" + valid_name + "z z";
std::string string_in_7 = "a$" + invalid_name + "# z";
REQUIRE(variable_substitute(string_in_1) == "a z");
REQUIRE(variable_substitute(string_in_2) == "a z");
REQUIRE(variable_substitute(string_in_3) == "a z");
REQUIRE(variable_substitute(string_in_4) == "a z");
REQUIRE(variable_substitute(string_in_5) == "a z");
REQUIRE(variable_substitute(string_in_6) == "a z");
REQUIRE(variable_substitute(string_in_7) == "a# z");
}
SECTION("valid variable gets replaced in the return string") {
std::string string_in_1 = "a$" + valid_name + " z";
std::string string_in_2 = "a${" + valid_name + "} z";
std::string string_in_3 = "a$" + valid_name + "# z";
std::string string_var_replaced_1 = "a" + valid_value + " z";
std::string string_var_replaced_2 = "a" + valid_value + " z";
std::string string_var_replaced_3 = "a" + valid_value + "# z";
REQUIRE(variable_substitute(string_in_1) == string_var_replaced_1);
REQUIRE(variable_substitute(string_in_2) == string_var_replaced_2);
REQUIRE(variable_substitute(string_in_3) == string_var_replaced_3);
}
SECTION("$ without variable is ignored") {
std::string string_in_1 = "a$#z";
std::string string_in_2 = "a$2z";
REQUIRE(variable_substitute(string_in_1) == string_in_1);
REQUIRE(variable_substitute(string_in_2) == string_in_2);
}
SECTION("double $ gets converted to single $ and is passed over") {
std::string string_in_1 = "a$$sz";
std::string string_in_2 = "a$$" + valid_name + "z";
std::string string_out_1 = "a$sz";
std::string string_out_2 = "a$" + valid_name + "z";
REQUIRE(variable_substitute(string_in_1) == string_out_1);
REQUIRE(variable_substitute(string_in_2) == string_out_2);
}
SECTION("incomplete variable does not get replaced in return string") {
std::string string_in = "a${" + valid_name + " z";
REQUIRE(variable_substitute(string_in) == string_in);
}
}
TEST_CASE("cpu_percentage and cpu_barval return correct values") {
struct text_object obj0;
obj0.data.i = 0;
struct text_object obj1;
obj1.data.i = 1;
// struct text_object obj2;
// obj2.data.i = 2;
info.cpu_count = 1;
// SECTION("for non-existent cpu") {
// info.cpu_usage = new float[2];
// info.cpu_usage[0] = 0.253;
// info.cpu_usage[1] = 0.507;
// This does not exist in Catch2, but would be nice to have since that's
// what happens in this case.
// REQUIRE_EXIT(cpu_percentage(&obj2));
// REQUIRE_EXIT(cpu_barval(&obj2));
// delete[] info.cpu_usage;
// }
SECTION("for cpu_usage == nullptr") {
info.cpu_usage = nullptr;
REQUIRE(cpu_percentage(&obj0) == 0);
REQUIRE(cpu_barval(&obj0) == 0);
REQUIRE(cpu_percentage(&obj1) == 0);
REQUIRE(cpu_barval(&obj1) == 0);
}
SECTION("for cpu_usage has data") {
info.cpu_usage = new float[2];
info.cpu_usage[0] = 0.253;
info.cpu_usage[1] = 0.507;
REQUIRE(cpu_percentage(&obj0) == 25);
REQUIRE(cpu_barval(&obj0) == Approx(0.253));
REQUIRE(cpu_percentage(&obj1) == 51);
REQUIRE(cpu_barval(&obj1) == Approx(0.507));
delete[] info.cpu_usage;
}
}
TEST_CASE("mem_percentage and mem_barval return correct values") {
info.mem = 6;
SECTION("for memmax == 0") {
info.memmax = 0;
REQUIRE(mem_percentage(nullptr) == 0);
REQUIRE(mem_barval(nullptr) == 0);
}
SECTION("for memmax > 0") {
info.memmax = 24;
REQUIRE(mem_percentage(nullptr) == 25);
REQUIRE(mem_barval(nullptr) == Approx(0.25));
}
}
TEST_CASE("mem_with_buffers_barval returns correct value") {
info.memwithbuffers = 6;
SECTION("for memmax == 0") {
info.memmax = 0;
REQUIRE(mem_with_buffers_barval(nullptr) == 0);
}
SECTION("for memmax > 0") {
info.memmax = 24;
REQUIRE(mem_with_buffers_barval(nullptr) == Approx(0.25));
}
}
TEST_CASE("swap_percentage and swap_barval return correct values") {
info.swap = 6;
SECTION("for swapmax == 0") {
info.swapmax = 0;
REQUIRE(swap_percentage(nullptr) == 0);
REQUIRE(swap_barval(nullptr) == 0);
}
SECTION("for swapmax > 0") {
info.swapmax = 24;
REQUIRE(swap_percentage(nullptr) == 25);
REQUIRE(swap_barval(nullptr) == Approx(0.25));
}
}