/* * Copyright 2021 Google LLC * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "include/core/SkStream.h" #include "src/sksl/tracing/SkVMDebugTrace.h" #include "tests/Test.h" DEF_TEST(SkVMDebugTraceSetSource, r) { SkSL::SkVMDebugTrace i; i.setSource("SkVMDebugTrace::setSource unit test\n" "\t// first line\n" "\t// second line\n" "\t// third line"); REPORTER_ASSERT(r, i.fSource.size() == 4); REPORTER_ASSERT(r, i.fSource[0] == "SkVMDebugTrace::setSource unit test"); REPORTER_ASSERT(r, i.fSource[1] == "\t// first line"); REPORTER_ASSERT(r, i.fSource[2] == "\t// second line"); REPORTER_ASSERT(r, i.fSource[3] == "\t// third line"); } DEF_TEST(SkVMDebugTraceSetSourceReplacesExistingText, r) { SkSL::SkVMDebugTrace i; i.setSource("One"); i.setSource("Two"); i.setSource("Three"); REPORTER_ASSERT(r, i.fSource.size() == 1); REPORTER_ASSERT(r, i.fSource[0] == "Three"); } DEF_TEST(SkVMDebugTraceWrite, r) { SkSL::SkVMDebugTrace i; i.fSource = { "\t// first line", "// \"second line\"", "//\\\\//\\\\ third line", }; i.fSlotInfo = { {"SkVM_DebugTrace", 1, 2, 3, (SkSL::Type::NumberKind)4, 5, -1}, {"Unit_Test", 6, 7, 8, (SkSL::Type::NumberKind)9, 10, 11}, }; i.fFuncInfo = { {"void testFunc();"}, }; i.fTraceInfo = { {SkSL::SkVMTraceInfo::Op::kEnter, {0, 0}}, {SkSL::SkVMTraceInfo::Op::kLine, {5, 0}}, {SkSL::SkVMTraceInfo::Op::kVar, {10, 15}}, {SkSL::SkVMTraceInfo::Op::kExit, {20, 0}}, }; SkDynamicMemoryWStream wstream; i.writeTrace(&wstream); sk_sp trace = wstream.detachAsData(); static constexpr char kExpected[] = R"({"version":"20220119b","source":["\t// first line","// \"second line\"","//\\\\//)" R"(\\\\ third line"],"slots":[{"name":"SkVM_DebugTrace","columns":1,"rows":2,"index")" R"(:3,"kind":4,"line":5},{"name":"Unit_Test","columns":6,"rows":7,"index":8,"kind":9)" R"(,"line":10,"retval":11}],"functions":[{"name":"void testFunc();"}],"trace":[[2],[)" R"(0,5],[1,10,15],[3,20]]})"; skstd::string_view actual{reinterpret_cast(trace->bytes()), trace->size()}; REPORTER_ASSERT(r, actual == kExpected, "Expected:\n %s\n\n Actual:\n %.*s\n", kExpected, (int)actual.size(), actual.data()); } DEF_TEST(SkVMDebugTraceRead, r) { const skstd::string_view kJSONTrace = R"({"version":"20220119b","source":["\t// first line","// \"second line\"","//\\\\//)" R"(\\\\ third line"],"slots":[{"name":"SkVM_DebugTrace","columns":1,"rows":2,"index")" R"(:3,"kind":4,"line":5},{"name":"Unit_Test","columns":6,"rows":7,"index":8,"kind":9)" R"(,"line":10,"retval":11}],"functions":[{"name":"void testFunc();"}],"trace":[[2],[)" R"(0,5],[1,10,15],[3,20]]})"; SkMemoryStream stream(kJSONTrace.data(), kJSONTrace.size(), /*copyData=*/false); SkSL::SkVMDebugTrace i; REPORTER_ASSERT(r, i.readTrace(&stream)); REPORTER_ASSERT(r, i.fSource.size() == 3); REPORTER_ASSERT(r, i.fSlotInfo.size() == 2); REPORTER_ASSERT(r, i.fFuncInfo.size() == 1); REPORTER_ASSERT(r, i.fTraceInfo.size() == 4); REPORTER_ASSERT(r, i.fSource[0] == "\t// first line"); REPORTER_ASSERT(r, i.fSource[1] == "// \"second line\""); REPORTER_ASSERT(r, i.fSource[2] == "//\\\\//\\\\ third line"); REPORTER_ASSERT(r, i.fSlotInfo[0].name == "SkVM_DebugTrace"); REPORTER_ASSERT(r, i.fSlotInfo[0].columns == 1); REPORTER_ASSERT(r, i.fSlotInfo[0].rows == 2); REPORTER_ASSERT(r, i.fSlotInfo[0].componentIndex == 3); REPORTER_ASSERT(r, i.fSlotInfo[0].numberKind == (SkSL::Type::NumberKind)4); REPORTER_ASSERT(r, i.fSlotInfo[0].line == 5); REPORTER_ASSERT(r, i.fSlotInfo[0].fnReturnValue == -1); REPORTER_ASSERT(r, i.fSlotInfo[1].name == "Unit_Test"); REPORTER_ASSERT(r, i.fSlotInfo[1].columns == 6); REPORTER_ASSERT(r, i.fSlotInfo[1].rows == 7); REPORTER_ASSERT(r, i.fSlotInfo[1].componentIndex == 8); REPORTER_ASSERT(r, i.fSlotInfo[1].numberKind == (SkSL::Type::NumberKind)9); REPORTER_ASSERT(r, i.fSlotInfo[1].line == 10); REPORTER_ASSERT(r, i.fSlotInfo[1].fnReturnValue == 11); REPORTER_ASSERT(r, i.fFuncInfo[0].name == "void testFunc();"); REPORTER_ASSERT(r, i.fTraceInfo[0].op == SkSL::SkVMTraceInfo::Op::kEnter); REPORTER_ASSERT(r, i.fTraceInfo[0].data[0] == 0); REPORTER_ASSERT(r, i.fTraceInfo[0].data[1] == 0); REPORTER_ASSERT(r, i.fTraceInfo[1].op == SkSL::SkVMTraceInfo::Op::kLine); REPORTER_ASSERT(r, i.fTraceInfo[1].data[0] == 5); REPORTER_ASSERT(r, i.fTraceInfo[1].data[1] == 0); REPORTER_ASSERT(r, i.fTraceInfo[2].op == SkSL::SkVMTraceInfo::Op::kVar); REPORTER_ASSERT(r, i.fTraceInfo[2].data[0] == 10); REPORTER_ASSERT(r, i.fTraceInfo[2].data[1] == 15); REPORTER_ASSERT(r, i.fTraceInfo[3].op == SkSL::SkVMTraceInfo::Op::kExit); REPORTER_ASSERT(r, i.fTraceInfo[3].data[0] == 20); REPORTER_ASSERT(r, i.fTraceInfo[3].data[1] == 0); } DEF_TEST(SkVMDebugTraceGetSlotComponentSuffix, r) { // SkVMSlotInfo fields: // - name // - columns // - rows // - componentIndex // - numberKind // - line // - fnReturnValue SkSL::SkVMDebugTrace i; i.fSlotInfo = {{"s", 1, 1, 0, SkSL::Type::NumberKind::kFloat, 0, -1}, {"v", 4, 1, 0, SkSL::Type::NumberKind::kFloat, 0, -1}, {"v", 4, 1, 1, SkSL::Type::NumberKind::kFloat, 0, -1}, {"v", 4, 1, 2, SkSL::Type::NumberKind::kFloat, 0, -1}, {"v", 4, 1, 3, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 0, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 1, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 2, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 3, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 4, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 5, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 6, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 7, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 8, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 9, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 10, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 11, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 12, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 13, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 14, SkSL::Type::NumberKind::kFloat, 0, -1}, {"m", 4, 4, 15, SkSL::Type::NumberKind::kFloat, 0, -1}}; const std::string kExpected[] = {"", ".x", ".y", ".z", ".w", "[0][0]", "[0][1]", "[0][2]", "[0][3]", "[1][0]", "[1][1]", "[1][2]", "[1][3]", "[2][0]", "[2][1]", "[2][2]", "[2][3]", "[3][0]", "[3][1]", "[3][2]", "[3][3]"}; REPORTER_ASSERT(r, i.fSlotInfo.size() == SK_ARRAY_COUNT(kExpected)); for (size_t index = 0; index < SK_ARRAY_COUNT(kExpected); ++index) { REPORTER_ASSERT(r, kExpected[index] == i.getSlotComponentSuffix(index)); } }