xfa/src/fxbarcode/pdf417/BC_PDF417HighLevelEncoder_unittest.cpp - pdfium - Git at Google

 // Copyright 2014 PDFium 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 "testing/gtest/include/gtest/gtest.h"
 #include "../../../../core/include/fxcrt/fx_basic.h"
 #include "../../../../testing/fx_string_testhelpers.h"
 #include "BC_PDF417HighLevelEncoder.h"

 TEST(PDF417HighLevelEncoder, EncodeHighLevel) {
   // TODO(tsepez): implement test cases.
 }

 TEST(PDF417HighLevelEncoder, EncodeText) {
   // TODO(tsepez): implement test cases.
 }

 TEST(PDF417HighLevelEncoder, EncodeBinary) {
   struct EncodeBinaryCase {
     const char* input;
     int offset;
     int count;
     int startmode;
     const wchar_t* expected;
     int expected_length;
   } encode_binary_cases[] = {
     // Empty string encodes as empty string.
     { "", 0, 0, CBC_PDF417HighLevelEncoder::TEXT_COMPACTION, L"", 0 },

     // Fewer than 6 characters encodes as prefix without compaction.
     { "xxxxx", 0, 5, CBC_PDF417HighLevelEncoder::TEXT_COMPACTION, L"\x0385xxxxx", 6 },

     // 6 charcters triggerst text encoding compaction.
     { "xxxxxx", 0, 6, CBC_PDF417HighLevelEncoder::TEXT_COMPACTION,
       L"\u039c\u00c9\u031f\u012a\u00d2\u02d0", 6 },

     // Same result if initially in numeric compaction mode.
     { "xxxxxx", 0, 6, CBC_PDF417HighLevelEncoder::NUMERIC_COMPACTION,
       L"\u039c\u00c9\u031f\u012a\u00d2\u02d0", 6 },
   };

   CBC_PDF417HighLevelEncoder::Initialize();
   for (size_t i = 0; i < FX_ArraySize(encode_binary_cases); ++i) {
     EncodeBinaryCase* ptr = &encode_binary_cases[i];
     CFX_ByteArray input_array;
     size_t input_length = strlen(ptr->input);
     input_array.SetSize(input_length);
     for (size_t j = 0; j < input_length; ++j) {
       input_array.SetAt(j, ptr->input[j]);
     }
     CFX_WideString expected(ptr->expected, ptr->expected_length);
     CFX_WideString result;
     CBC_PDF417HighLevelEncoder::encodeBinary(
         &input_array, ptr->offset, ptr->count, ptr->startmode, result);
     EXPECT_EQ(expected, result) << " for case number " << i;
   }
   CBC_PDF417HighLevelEncoder::Finalize();
 }

 TEST(PDF417HighLevelEncoder, EncodeNumeric) {
   struct EncodeNumericCase {
     const wchar_t* input;
     int offset;
     int count;
     const wchar_t* expected;
     int expected_length;
   } encode_numeric_cases[] = {
     // Empty string encodes as empty string.
     { L"", 0, 0, L"", 0 },

     // Blank string encodes as empty string.
     { L" ", 0, 1, L"", 0 },

     // Single 0 should encode as 10 base-900 == 10.
     { L"0", 0, 1, L"", 0 }, // wrong - should be \u000a?

     // 800 should encode as 1800 base-900 == 2,0.
     { L"800", 0, 3, L"\x0002\x0000", 2 },

     // Test longer strings and sub-strings.
     { L"123456", 0, 6, L"\x0001\x015c\x0100", 3 },
     { L"123456", 0, 5, L"\x007c\x02e9", 2 },
     { L"123456", 1, 5, L"\x0089\x009c", 2 },
     { L"123456", 2, 2, L"\x0086", 1 },

     // Up to 44 characters encodes as 15 base-900 words.
     { L"00000000000000000000000000000000000000000000", 0, 44,
       L"\x01b5\x006f\x02cc\x0084\x01bc\x0076\x00b3\x005c\x01f0\x034f\x01e6\x0090\x020b\x019b\x0064", 15 },

     // 45 characters should encode as same 15 words followed by one additional word.
     { L"000000000000000000000000000000000000000000000", 0, 45,
       L"\x01b5\x006f\x02cc\x0084\x01bc\x0076\x00b3\x005c\x01f0\x034f\x01e6\x0090\x020b\x019b\x0064\x000a", 16 },

     // 44 characters followed by 800 should encode as 15 words followed by 1800 base-900 == 2,0.
     { L"00000000000000000000000000000000000000000000800", 0, 47,
       L"\x01b5\x006f\x02cc\x0084\x01bc\x0076\x00b3\x005c\x01f0\x034f\x01e6\x0090\x020b\x019b\x0064\x0002\x0000", 17 },

     // Even longer input.
     { L"10000000000000000000000000000000000000000000000000", 0, 50,
       L"\x01e0\x02f0\x036d\x02ad\x029c\x01ea\x0011\x000b\x02d6\x023c\x0108\x02bb\x0023\x02d2\x00c8\x0001\x00d3\x0064", 18 },
   };

   CBC_PDF417HighLevelEncoder::Initialize();
   for (size_t i = 0; i < FX_ArraySize(encode_numeric_cases); ++i) {
     EncodeNumericCase* ptr = &encode_numeric_cases[i];
     CFX_WideString input(ptr->input);
     CFX_WideString expected(ptr->expected, ptr->expected_length);
     CFX_WideString result;
     CBC_PDF417HighLevelEncoder::encodeNumeric(
         input, ptr->offset, ptr->count, result);
     EXPECT_EQ(expected, result) << " for case number " << i;
   }
   CBC_PDF417HighLevelEncoder::Finalize();
 }

 TEST(PDF417HighLevelEncoder, ConsecutiveDigitCount) {
   struct ConsecutiveDigitCase {
     const wchar_t* input;
     int offset;
     int expected_count;
   } consecutive_digit_cases[] = {
     // Empty string contains 0 consecuitve digits.
     { L"", 0, 0 },

     // Single non-digit character contains 0 consecutive digits.
     { L"X", 0, 0 },

     // Leading non-digit followed by digits contains 0 consecutive.
     { L"X123", 0, 0 },

     // Single digit contains 1 consecutive digit.
     { L"1", 0, 1 },

     // Single digit followe by non-digit contains 1 consecutive digit.
     { L"1Z", 0, 1 },

     // Test longer strings.
     { L"123FOO45678", 0, 3 },

     // Test subtring starting in digits field.
     { L"123FOO45678", 3, 0 },

     // Test subtring starting in non-digits field.
     { L"123FOO45678", 3, 0 },

     // Test substring starting in digits field following non-digit field.
     { L"123FOO45678", 6, 5 },
   };

   CBC_PDF417HighLevelEncoder::Initialize();
   for (size_t i = 0; i < FX_ArraySize(consecutive_digit_cases); ++i) {
     ConsecutiveDigitCase* ptr = &consecutive_digit_cases[i];
     CFX_WideString input(ptr->input);
     int actual_count = CBC_PDF417HighLevelEncoder::determineConsecutiveDigitCount(input, ptr->offset);
     EXPECT_EQ(ptr->expected_count, actual_count) << " for case number " << i;
   }
   CBC_PDF417HighLevelEncoder::Finalize();
 }

 TEST(PDF417HighLevelEncoder, ConsecutiveTextCount) {
   struct ConsecutiveTextCase {
     const wchar_t* input;
     int offset;
     int expected_count;
   } consecutive_text_cases[] = {
     // Empty string contains 0 consecutive text characters.
     { L"", 0, 0 },

     // Single text character is 1 consecutive text characters.
     { L"X", 0, 1 },

     // Trailing numbers count as text characters.
     { L"X123", 0, 4 },

     // Leading numbers count as text characters.
     { L"123X", 0, 4 },

     // Embedded lo-value binary characters terminate text runs.
     { L"ABC\x0001XXXX", 0, 3 },

     // Embedded hi-value binary characters terminate text runs.
     { L"ABC\x0100XXXX", 0, 3 },

     // Text run still found after indexing past lo-value character.
     { L"ABC\x0001XXXX", 4, 4 },

     // Text run still found after indexing past hi-value character.
     { L"ABC\x0100XXXX", 4, 4 },

     // Leading hi-value character results in 0 consecutive characters.
     { L"\x0100XXX", 0, 0 },

     // Up to 12 numbers count as text.
     { L"123456789012", 0, 12 },

     // 13 or more numbers are compresssed using numeric compression, not text.
     { L"1234567890123", 0, 0 },

     // Leading Text character doesn't affect the 12 character case.
     { L"X123456789012", 0, 13 },

     // Leading Text character doesn't affect the 13 character case.
     { L"X1234567890123", 0, 1 },

     // Jumping between numbers and letters works properly.
     { L"XXX121XXX12345678901234", 0, 9 },
   };

   CBC_PDF417HighLevelEncoder::Initialize();
   for (size_t i = 0; i < FX_ArraySize(consecutive_text_cases); ++i) {
     ConsecutiveTextCase* ptr = &consecutive_text_cases[i];
     CFX_WideString input(ptr->input);
     int actual_count = CBC_PDF417HighLevelEncoder::determineConsecutiveTextCount(input, ptr->offset);
     EXPECT_EQ(ptr->expected_count, actual_count) << " for case number " << i;
   }
   CBC_PDF417HighLevelEncoder::Finalize();
 }

 TEST(PDF417HighLevelEncoder, ConsecutiveBinaryCount) {

 }
	// Copyright 2014 PDFium 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 "testing/gtest/include/gtest/gtest.h"
	#include "../../../../core/include/fxcrt/fx_basic.h"
	#include "../../../../testing/fx_string_testhelpers.h"
	#include "BC_PDF417HighLevelEncoder.h"

	TEST(PDF417HighLevelEncoder, EncodeHighLevel) {
	// TODO(tsepez): implement test cases.
	}

	TEST(PDF417HighLevelEncoder, EncodeText) {
	// TODO(tsepez): implement test cases.
	}

	TEST(PDF417HighLevelEncoder, EncodeBinary) {
	struct EncodeBinaryCase {
	const char* input;
	int offset;
	int count;
	int startmode;
	const wchar_t* expected;
	int expected_length;
	} encode_binary_cases[] = {
	// Empty string encodes as empty string.
	{ "", 0, 0, CBC_PDF417HighLevelEncoder::TEXT_COMPACTION, L"", 0 },

	// Fewer than 6 characters encodes as prefix without compaction.
	{ "xxxxx", 0, 5, CBC_PDF417HighLevelEncoder::TEXT_COMPACTION, L"\x0385xxxxx", 6 },

	// 6 charcters triggerst text encoding compaction.
	{ "xxxxxx", 0, 6, CBC_PDF417HighLevelEncoder::TEXT_COMPACTION,
	L"\u039c\u00c9\u031f\u012a\u00d2\u02d0", 6 },

	// Same result if initially in numeric compaction mode.
	{ "xxxxxx", 0, 6, CBC_PDF417HighLevelEncoder::NUMERIC_COMPACTION,
	L"\u039c\u00c9\u031f\u012a\u00d2\u02d0", 6 },
	};

	CBC_PDF417HighLevelEncoder::Initialize();
	for (size_t i = 0; i < FX_ArraySize(encode_binary_cases); ++i) {
	EncodeBinaryCase* ptr = &encode_binary_cases[i];
	CFX_ByteArray input_array;
	size_t input_length = strlen(ptr->input);
	input_array.SetSize(input_length);
	for (size_t j = 0; j < input_length; ++j) {
	input_array.SetAt(j, ptr->input[j]);
	}
	CFX_WideString expected(ptr->expected, ptr->expected_length);
	CFX_WideString result;
	CBC_PDF417HighLevelEncoder::encodeBinary(
	&input_array, ptr->offset, ptr->count, ptr->startmode, result);
	EXPECT_EQ(expected, result) << " for case number " << i;
	}
	CBC_PDF417HighLevelEncoder::Finalize();
	}

	TEST(PDF417HighLevelEncoder, EncodeNumeric) {
	struct EncodeNumericCase {
	const wchar_t* input;
	int offset;
	int count;
	const wchar_t* expected;
	int expected_length;
	} encode_numeric_cases[] = {
	// Empty string encodes as empty string.
	{ L"", 0, 0, L"", 0 },

	// Blank string encodes as empty string.
	{ L" ", 0, 1, L"", 0 },

	// Single 0 should encode as 10 base-900 == 10.
	{ L"0", 0, 1, L"", 0 }, // wrong - should be \u000a?

	// 800 should encode as 1800 base-900 == 2,0.
	{ L"800", 0, 3, L"\x0002\x0000", 2 },

	// Test longer strings and sub-strings.
	{ L"123456", 0, 6, L"\x0001\x015c\x0100", 3 },
	{ L"123456", 0, 5, L"\x007c\x02e9", 2 },
	{ L"123456", 1, 5, L"\x0089\x009c", 2 },
	{ L"123456", 2, 2, L"\x0086", 1 },

	// Up to 44 characters encodes as 15 base-900 words.
	{ L"00000000000000000000000000000000000000000000", 0, 44,
	L"\x01b5\x006f\x02cc\x0084\x01bc\x0076\x00b3\x005c\x01f0\x034f\x01e6\x0090\x020b\x019b\x0064", 15 },

	// 45 characters should encode as same 15 words followed by one additional word.
	{ L"000000000000000000000000000000000000000000000", 0, 45,
	L"\x01b5\x006f\x02cc\x0084\x01bc\x0076\x00b3\x005c\x01f0\x034f\x01e6\x0090\x020b\x019b\x0064\x000a", 16 },

	// 44 characters followed by 800 should encode as 15 words followed by 1800 base-900 == 2,0.
	{ L"00000000000000000000000000000000000000000000800", 0, 47,
	L"\x01b5\x006f\x02cc\x0084\x01bc\x0076\x00b3\x005c\x01f0\x034f\x01e6\x0090\x020b\x019b\x0064\x0002\x0000", 17 },

	// Even longer input.
	{ L"10000000000000000000000000000000000000000000000000", 0, 50,
	L"\x01e0\x02f0\x036d\x02ad\x029c\x01ea\x0011\x000b\x02d6\x023c\x0108\x02bb\x0023\x02d2\x00c8\x0001\x00d3\x0064", 18 },
	};

	CBC_PDF417HighLevelEncoder::Initialize();
	for (size_t i = 0; i < FX_ArraySize(encode_numeric_cases); ++i) {
	EncodeNumericCase* ptr = &encode_numeric_cases[i];
	CFX_WideString input(ptr->input);
	CFX_WideString expected(ptr->expected, ptr->expected_length);
	CFX_WideString result;
	CBC_PDF417HighLevelEncoder::encodeNumeric(
	input, ptr->offset, ptr->count, result);
	EXPECT_EQ(expected, result) << " for case number " << i;
	}
	CBC_PDF417HighLevelEncoder::Finalize();
	}

	TEST(PDF417HighLevelEncoder, ConsecutiveDigitCount) {
	struct ConsecutiveDigitCase {
	const wchar_t* input;
	int offset;
	int expected_count;
	} consecutive_digit_cases[] = {
	// Empty string contains 0 consecuitve digits.
	{ L"", 0, 0 },

	// Single non-digit character contains 0 consecutive digits.
	{ L"X", 0, 0 },

	// Leading non-digit followed by digits contains 0 consecutive.
	{ L"X123", 0, 0 },

	// Single digit contains 1 consecutive digit.
	{ L"1", 0, 1 },

	// Single digit followe by non-digit contains 1 consecutive digit.
	{ L"1Z", 0, 1 },

	// Test longer strings.
	{ L"123FOO45678", 0, 3 },

	// Test subtring starting in digits field.
	{ L"123FOO45678", 3, 0 },

	// Test subtring starting in non-digits field.
	{ L"123FOO45678", 3, 0 },

	// Test substring starting in digits field following non-digit field.
	{ L"123FOO45678", 6, 5 },
	};

	CBC_PDF417HighLevelEncoder::Initialize();
	for (size_t i = 0; i < FX_ArraySize(consecutive_digit_cases); ++i) {
	ConsecutiveDigitCase* ptr = &consecutive_digit_cases[i];
	CFX_WideString input(ptr->input);
	int actual_count = CBC_PDF417HighLevelEncoder::determineConsecutiveDigitCount(input, ptr->offset);
	EXPECT_EQ(ptr->expected_count, actual_count) << " for case number " << i;
	}
	CBC_PDF417HighLevelEncoder::Finalize();
	}

	TEST(PDF417HighLevelEncoder, ConsecutiveTextCount) {
	struct ConsecutiveTextCase {
	const wchar_t* input;
	int offset;
	int expected_count;
	} consecutive_text_cases[] = {
	// Empty string contains 0 consecutive text characters.
	{ L"", 0, 0 },

	// Single text character is 1 consecutive text characters.
	{ L"X", 0, 1 },

	// Trailing numbers count as text characters.
	{ L"X123", 0, 4 },

	// Leading numbers count as text characters.
	{ L"123X", 0, 4 },

	// Embedded lo-value binary characters terminate text runs.
	{ L"ABC\x0001XXXX", 0, 3 },

	// Embedded hi-value binary characters terminate text runs.
	{ L"ABC\x0100XXXX", 0, 3 },

	// Text run still found after indexing past lo-value character.
	{ L"ABC\x0001XXXX", 4, 4 },

	// Text run still found after indexing past hi-value character.
	{ L"ABC\x0100XXXX", 4, 4 },

	// Leading hi-value character results in 0 consecutive characters.
	{ L"\x0100XXX", 0, 0 },

	// Up to 12 numbers count as text.
	{ L"123456789012", 0, 12 },

	// 13 or more numbers are compresssed using numeric compression, not text.
	{ L"1234567890123", 0, 0 },

	// Leading Text character doesn't affect the 12 character case.
	{ L"X123456789012", 0, 13 },

	// Leading Text character doesn't affect the 13 character case.
	{ L"X1234567890123", 0, 1 },

	// Jumping between numbers and letters works properly.
	{ L"XXX121XXX12345678901234", 0, 9 },
	};

	CBC_PDF417HighLevelEncoder::Initialize();
	for (size_t i = 0; i < FX_ArraySize(consecutive_text_cases); ++i) {
	ConsecutiveTextCase* ptr = &consecutive_text_cases[i];
	CFX_WideString input(ptr->input);
	int actual_count = CBC_PDF417HighLevelEncoder::determineConsecutiveTextCount(input, ptr->offset);
	EXPECT_EQ(ptr->expected_count, actual_count) << " for case number " << i;
	}
	CBC_PDF417HighLevelEncoder::Finalize();
	}

	TEST(PDF417HighLevelEncoder, ConsecutiveBinaryCount) {

	}