//===-- RegisterFlagsTest.cpp ---------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "lldb/Target/RegisterFlags.h" #include "lldb/Utility/StreamString.h" #include "gmock/gmock.h" #include "gtest/gtest.h" using namespace lldb_private; using namespace lldb; TEST(RegisterFlagsTest, Field) { // We assume that start <= end is always true, so that is not tested here. RegisterFlags::Field f1("abc", 0); ASSERT_EQ(f1.GetName(), "abc"); // start == end means a 1 bit field. ASSERT_EQ(f1.GetSizeInBits(), (unsigned)1); ASSERT_EQ(f1.GetMask(), (uint64_t)1); ASSERT_EQ(f1.GetValue(0), (uint64_t)0); ASSERT_EQ(f1.GetValue(3), (uint64_t)1); // End is inclusive meaning that start 0 to end 1 includes bit 1 // to make a 2 bit field. RegisterFlags::Field f2("", 0, 1); ASSERT_EQ(f2.GetSizeInBits(), (unsigned)2); ASSERT_EQ(f2.GetMask(), (uint64_t)3); ASSERT_EQ(f2.GetValue(UINT64_MAX), (uint64_t)3); ASSERT_EQ(f2.GetValue(UINT64_MAX & ~(uint64_t)3), (uint64_t)0); // If the field doesn't start at 0 we need to shift up/down // to account for it. RegisterFlags::Field f3("", 2, 5); ASSERT_EQ(f3.GetSizeInBits(), (unsigned)4); ASSERT_EQ(f3.GetMask(), (uint64_t)0x3c); ASSERT_EQ(f3.GetValue(UINT64_MAX), (uint64_t)0xf); ASSERT_EQ(f3.GetValue(UINT64_MAX & ~(uint64_t)0x3c), (uint64_t)0); // Fields are sorted lowest starting bit first. ASSERT_TRUE(f2 < f3); ASSERT_FALSE(f3 < f1); ASSERT_FALSE(f1 < f2); ASSERT_FALSE(f1 < f1); } static RegisterFlags::Field make_field(unsigned start, unsigned end) { return RegisterFlags::Field("", start, end); } static RegisterFlags::Field make_field(unsigned bit) { return RegisterFlags::Field("", bit); } TEST(RegisterFlagsTest, FieldOverlaps) { // Single bit fields ASSERT_FALSE(make_field(0, 0).Overlaps(make_field(1))); ASSERT_TRUE(make_field(1, 1).Overlaps(make_field(1))); ASSERT_FALSE(make_field(1, 1).Overlaps(make_field(3))); ASSERT_TRUE(make_field(0, 1).Overlaps(make_field(1, 2))); ASSERT_TRUE(make_field(1, 2).Overlaps(make_field(0, 1))); ASSERT_FALSE(make_field(0, 1).Overlaps(make_field(2, 3))); ASSERT_FALSE(make_field(2, 3).Overlaps(make_field(0, 1))); ASSERT_FALSE(make_field(1, 5).Overlaps(make_field(10, 20))); ASSERT_FALSE(make_field(15, 30).Overlaps(make_field(7, 12))); } TEST(RegisterFlagsTest, PaddingDistance) { // We assume that this method is always called with a more significant // (start bit is higher) field first and that they do not overlap. // [field 1][field 2] ASSERT_EQ(make_field(1, 1).PaddingDistance(make_field(0)), 0ULL); // [field 1][..][field 2] ASSERT_EQ(make_field(2, 2).PaddingDistance(make_field(0)), 1ULL); // [field 1][field 1][field 2] ASSERT_EQ(make_field(1, 2).PaddingDistance(make_field(0)), 0ULL); // [field 1][30 bits free][field 2] ASSERT_EQ(make_field(31, 31).PaddingDistance(make_field(0)), 30ULL); } static void test_padding(const std::vector &fields, const std::vector &expected) { RegisterFlags rf("", 4, fields); EXPECT_THAT(expected, ::testing::ContainerEq(rf.GetFields())); } TEST(RegisterFlagsTest, RegisterFlagsPadding) { // When creating a set of flags we assume that: // * There are >= 1 fields. // * They are sorted in descending order. // * There may be gaps between each field. // Needs no padding auto fields = std::vector{make_field(16, 31), make_field(0, 15)}; test_padding(fields, fields); // Needs padding in between the fields, single bit. test_padding({make_field(17, 31), make_field(0, 15)}, {make_field(17, 31), make_field(16), make_field(0, 15)}); // Multiple bits of padding. test_padding({make_field(17, 31), make_field(0, 14)}, {make_field(17, 31), make_field(15, 16), make_field(0, 14)}); // Padding before first field, single bit. test_padding({make_field(0, 30)}, {make_field(31), make_field(0, 30)}); // Multiple bits. test_padding({make_field(0, 15)}, {make_field(16, 31), make_field(0, 15)}); // Padding after last field, single bit. test_padding({make_field(1, 31)}, {make_field(1, 31), make_field(0)}); // Multiple bits. test_padding({make_field(2, 31)}, {make_field(2, 31), make_field(0, 1)}); // Fields need padding before, in between and after. // [31-28][field 27-24][23-22][field 21-20][19-12][field 11-8][7-0] test_padding({make_field(24, 27), make_field(20, 21), make_field(8, 11)}, {make_field(28, 31), make_field(24, 27), make_field(22, 23), make_field(20, 21), make_field(12, 19), make_field(8, 11), make_field(0, 7)}); } TEST(RegisterFieldsTest, ReverseFieldOrder) { // Unchanged RegisterFlags rf("", 4, {make_field(0, 31)}); ASSERT_EQ(0x12345678ULL, (unsigned long long)rf.ReverseFieldOrder(0x12345678)); // Swap the two halves around. RegisterFlags rf2("", 4, {make_field(16, 31), make_field(0, 15)}); ASSERT_EQ(0x56781234ULL, (unsigned long long)rf2.ReverseFieldOrder(0x12345678)); // Many small fields. RegisterFlags rf3( "", 4, {make_field(31), make_field(30), make_field(29), make_field(28)}); ASSERT_EQ(0x00000005ULL, rf3.ReverseFieldOrder(0xA0000000)); } TEST(RegisterFlagsTest, AsTable) { // Anonymous fields are shown with an empty name cell, // whether they are known up front or added during construction. RegisterFlags anon_field("", 4, {make_field(0, 31)}); ASSERT_EQ("| 31-0 |\n" "|------|\n" "| |", anon_field.AsTable(100)); RegisterFlags anon_with_pad("", 4, {make_field(16, 31)}); ASSERT_EQ("| 31-16 | 15-0 |\n" "|-------|------|\n" "| | |", anon_with_pad.AsTable(100)); // Use the wider of position and name to set the column width. RegisterFlags name_wider("", 4, {RegisterFlags::Field("aardvark", 0, 31)}); ASSERT_EQ("| 31-0 |\n" "|----------|\n" "| aardvark |", name_wider.AsTable(100)); // When the padding is an odd number, put the remaining 1 on the right. RegisterFlags pos_wider("", 4, {RegisterFlags::Field("?", 0, 31)}); ASSERT_EQ("| 31-0 |\n" "|------|\n" "| ? |", pos_wider.AsTable(100)); // Single bit fields don't need to show start and end, just one of them. RegisterFlags single_bit("", 4, {make_field(31)}); ASSERT_EQ("| 31 | 30-0 |\n" "|----|------|\n" "| | |", single_bit.AsTable(100)); // Columns are printed horizontally if max width allows. RegisterFlags many_fields("", 4, {RegisterFlags::Field("cat", 28, 31), RegisterFlags::Field("pigeon", 20, 23), RegisterFlags::Field("wolf", 12), RegisterFlags::Field("x", 0, 4)}); ASSERT_EQ("| 31-28 | 27-24 | 23-20 | 19-13 | 12 | 11-5 | 4-0 |\n" "|-------|-------|--------|-------|------|------|-----|\n" "| cat | | pigeon | | wolf | | x |", many_fields.AsTable(100)); // max_width tells us when we need to split into further tables. // Here no split is needed. RegisterFlags exact_max_single_col("", 4, {RegisterFlags::Field("?", 0, 31)}); ASSERT_EQ("| 31-0 |\n" "|------|\n" "| ? |", exact_max_single_col.AsTable(9)); RegisterFlags exact_max_two_col( "", 4, {RegisterFlags::Field("?", 16, 31), RegisterFlags::Field("#", 0, 15)}); ASSERT_EQ("| 31-16 | 15-0 |\n" "|-------|------|\n" "| ? | # |", exact_max_two_col.AsTable(16)); // If max is less than a single column, just print the single column. The user // will have to put up with some wrapping in this niche case. RegisterFlags zero_max_single_col("", 4, {RegisterFlags::Field("?", 0, 31)}); ASSERT_EQ("| 31-0 |\n" "|------|\n" "| ? |", zero_max_single_col.AsTable(0)); // Same logic for any following columns. Effectively making a "vertical" // table, just with more grid lines. RegisterFlags zero_max_two_col( "", 4, {RegisterFlags::Field("?", 16, 31), RegisterFlags::Field("#", 0, 15)}); ASSERT_EQ("| 31-16 |\n" "|-------|\n" "| ? |\n" "\n" "| 15-0 |\n" "|------|\n" "| # |", zero_max_two_col.AsTable(0)); RegisterFlags max_less_than_single_col("", 4, {RegisterFlags::Field("?", 0, 31)}); ASSERT_EQ("| 31-0 |\n" "|------|\n" "| ? |", max_less_than_single_col.AsTable(3)); RegisterFlags max_less_than_two_col( "", 4, {RegisterFlags::Field("?", 16, 31), RegisterFlags::Field("#", 0, 15)}); ASSERT_EQ("| 31-16 |\n" "|-------|\n" "| ? |\n" "\n" "| 15-0 |\n" "|------|\n" "| # |", max_less_than_two_col.AsTable(9)); RegisterFlags max_many_columns( "", 4, {RegisterFlags::Field("A", 24, 31), RegisterFlags::Field("B", 16, 23), RegisterFlags::Field("C", 8, 15), RegisterFlags::Field("really long name", 0, 7)}); ASSERT_EQ("| 31-24 | 23-16 |\n" "|-------|-------|\n" "| A | B |\n" "\n" "| 15-8 |\n" "|------|\n" "| C |\n" "\n" "| 7-0 |\n" "|------------------|\n" "| really long name |", max_many_columns.AsTable(23)); } TEST(RegisterFieldsTest, ToXML) { StreamString strm; // RegisterFlags requires that some fields be given, so no testing of empty // input. // Unnamed fields are padding that are ignored. This applies to fields passed // in, and those generated to fill the other bits (31-1 here). RegisterFlags("Foo", 4, {RegisterFlags::Field("", 0, 0)}).ToXML(strm); ASSERT_EQ(strm.GetString(), "\n" "\n"); strm.Clear(); RegisterFlags("Foo", 4, {RegisterFlags::Field("abc", 0, 0)}).ToXML(strm); ASSERT_EQ(strm.GetString(), "\n" " \n" "\n"); strm.Clear(); // Should use the current indentation level as a starting point. strm.IndentMore(); RegisterFlags( "Bar", 5, {RegisterFlags::Field("f1", 25, 32), RegisterFlags::Field("f2", 10, 24)}) .ToXML(strm); ASSERT_EQ(strm.GetString(), " \n" " \n" " \n" " \n"); strm.Clear(); strm.IndentLess(); // Should replace any XML unsafe characters in field names. RegisterFlags("Safe", 8, {RegisterFlags::Field("A<", 4), RegisterFlags::Field("B>", 3), RegisterFlags::Field("C'", 2), RegisterFlags::Field("D\"", 1), RegisterFlags::Field("E&", 0)}) .ToXML(strm); ASSERT_EQ(strm.GetString(), "\n" " \n" " \n" " \n" " \n" " \n" "\n"); }