133 lines
4.8 KiB
C++
133 lines
4.8 KiB
C++
/* Copyright 2020 The TensorFlow Authors. All Rights Reserved.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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==============================================================================*/
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#include "tensorflow/lite/micro/micro_string.h"
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#include "tensorflow/lite/micro/testing/micro_test.h"
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TF_LITE_MICRO_TESTS_BEGIN
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TF_LITE_MICRO_TEST(FormatPositiveIntShouldMatchExpected) {
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const int kBufferLen = 32;
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char buffer[kBufferLen];
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const char golden[] = "Int: 55";
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int bytes_written = MicroSnprintf(buffer, kBufferLen, "Int: %d", 55);
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(FormatNegativeIntShouldMatchExpected) {
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const int kBufferLen = 32;
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char buffer[kBufferLen];
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const char golden[] = "Int: -55";
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int bytes_written = MicroSnprintf(buffer, kBufferLen, "Int: %d", -55);
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(FormatUnsignedIntShouldMatchExpected) {
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const int kBufferLen = 32;
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char buffer[kBufferLen];
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const char golden[] = "UInt: 12345";
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int bytes_written = MicroSnprintf(buffer, kBufferLen, "UInt: %u", 12345);
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(FormatHexShouldMatchExpected) {
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const int kBufferLen = 32;
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char buffer[kBufferLen];
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const char golden[] = "Hex: 0x12345";
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int bytes_written = MicroSnprintf(buffer, kBufferLen, "Hex: %x", 0x12345);
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(FormatFloatShouldMatchExpected) {
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const int kBufferLen = 32;
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char buffer[kBufferLen];
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const char golden[] = "Float: 1.0*2^4";
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int bytes_written = MicroSnprintf(buffer, kBufferLen, "Float: %f", 16.f);
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(BadlyFormattedStringShouldProduceReasonableString) {
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const int kBufferLen = 32;
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char buffer[kBufferLen];
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const char golden[] = "Test Badly % formated % string";
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int bytes_written =
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MicroSnprintf(buffer, kBufferLen, "Test Badly %% formated %% string%");
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(IntFormatOverrunShouldTruncate) {
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const int kBufferLen = 8;
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char buffer[kBufferLen];
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const char golden[] = "Int: ";
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int bytes_written = MicroSnprintf(buffer, kBufferLen, "Int: %d", 12345);
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(UnsignedIntFormatOverrunShouldTruncate) {
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const int kBufferLen = 8;
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char buffer[kBufferLen];
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const char golden[] = "UInt: ";
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int bytes_written = MicroSnprintf(buffer, kBufferLen, "UInt: %u", 12345);
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(HexFormatOverrunShouldTruncate) {
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const int kBufferLen = 8;
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char buffer[kBufferLen];
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const char golden[] = "Hex: ";
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int bytes_written = MicroSnprintf(buffer, kBufferLen, "Hex: %x", 0x12345);
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(FloatFormatOverrunShouldTruncate) {
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const int kBufferLen = 12;
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char buffer[kBufferLen];
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const char golden[] = "Float: ";
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int bytes_written = MicroSnprintf(buffer, kBufferLen, "Float: %x", 12345.f);
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(StringFormatOverrunShouldTruncate) {
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const int kBufferLen = 10;
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char buffer[kBufferLen];
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const char golden[] = "String: h";
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int bytes_written =
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MicroSnprintf(buffer, kBufferLen, "String: %s", "hello world");
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TEST(StringFormatWithExactOutputSizeOverrunShouldTruncate) {
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const int kBufferLen = 10;
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char buffer[kBufferLen];
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const char golden[] = "format st";
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int bytes_written = MicroSnprintf(buffer, kBufferLen, "format str");
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TF_LITE_MICRO_EXPECT_EQ(sizeof(golden), bytes_written);
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TF_LITE_MICRO_EXPECT_STRING_EQ(golden, buffer);
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}
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TF_LITE_MICRO_TESTS_END
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