Files
rocm-systems/source/lib/rocprofiler-sdk/counters/parser/tests/parser_test.cpp
T
Welton, Benjamin 007285272b [SWDEV-518071] Return HSA not loaded status (device counter collection) (#242)
* [SWDEV-518071] Return HSA not loaded status (device counter collection)

This is a state that a caller would want to know about to understand if
they got no counters because of a failure or if they were trying to
collect counters too early (as is the case in the sample, which can
attempt to collect counters before HSA is inited).

* Minor edit

* format

* [SWDEV-518081] Simplify Metric Loading (#243)

* [SWDEV-518071] Return HSA not loaded status (device counter collection)

This is a state that a caller would want to know about to understand if
they got no counters because of a failure or if they were trying to
collect counters too early (as is the case in the sample, which can
attempt to collect counters before HSA is inited).
* [SWDEV-518324] Add AST update support

Allows the ability for ASTs to be updated (instead of an unchangable
static value). Adds a shared pointer return type to protect against
static destructors/modifications from invalidating potentially in use
AST definitions. No functionality/use changes in this PR.
* [SWDEV-518593] Add updatable dimension cache + fix string issues (#252)

* [SWDEV-518593] Add updatable dimension cache + fix string issues

Updates dimension cache to use the same design pattern as AST/Metrics.

Fixes the string scoping issue seen in ASTs, which appears here as well.

* Add rocprofiler_create_counter

Creates derived counters based on input from the API. This PR does three
things:

1. Adds the API + test case
2. Validates that an AST can be constructed from the counter supplied.
3. Updates metrics, ast, and dimension caches to include the new metric.

Metric should be available for use immediately after the call completes.

Due to the regeneration of ASTs, this call should not be performed in
performance sensitive code.

* Suggestion fixes

---------

Co-authored-by: Benjamin Welton <bewelton@amd.com>

* Minor tweak

---------

Co-authored-by: Benjamin Welton <bewelton@amd.com>
Co-authored-by: Venkateshwar Reddy Kandula <vkandula@amd.com>

---------

Co-authored-by: Benjamin Welton <bewelton@amd.com>
Co-authored-by: Venkateshwar Reddy Kandula <vkandula@amd.com>

* Fixes for comments

---------

Co-authored-by: Benjamin Welton <bewelton@amd.com>
Co-authored-by: Kandula, Venkateshwar reddy <Venkateshwarreddy.Kandula@amd.com>
Co-authored-by: Venkateshwar Reddy Kandula <vkandula@amd.com>

---------

Co-authored-by: Benjamin Welton <bewelton@amd.com>
Co-authored-by: Kandula, Venkateshwar reddy <Venkateshwarreddy.Kandula@amd.com>
Co-authored-by: Venkateshwar Reddy Kandula <vkandula@amd.com>
2025-03-14 01:07:16 -07:00

380 lines
19 KiB
C++

// MIT License
//
// Copyright (c) 2023-2025 Advanced Micro Devices, Inc. All rights reserved.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
#include <map>
#include <string>
#include <tuple>
#include <gtest/gtest.h>
#include "lib/rocprofiler-sdk/counters/metrics.hpp"
#include "lib/rocprofiler-sdk/counters/parser/reader.hpp"
TEST(parser, base_ops)
{
std::map<std::string, std::string> expressionToExpected = {
{"AB * BA",
"{\"Type\":\"MULTIPLY_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"AB\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},"
"{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"BA\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}"},
{"AB + BA",
"{\"Type\":\"ADDITION_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"AB\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},"
"{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"BA\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}"},
{"CD - ZX",
"{\"Type\":\"SUBTRACTION_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"CD\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},"
"{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"ZX\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}"},
{"NM / DB",
"{\"Type\":\"DIVIDE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"NM\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},"
"{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"DB\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}"}};
for(auto [op, expected] : expressionToExpected)
{
RawAST* ast = nullptr;
auto* buf = yy_scan_string(op.c_str());
yyparse(&ast);
ASSERT_TRUE(ast);
EXPECT_EQ(fmt::format("{}", *ast), expected);
yy_delete_buffer(buf);
delete ast;
}
}
TEST(parser, order_of_ops)
{
std::map<std::string, std::string> expressionToExpected = {
{"(AB + BA) / CD",
"{\"Type\":\"DIVIDE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"ADDITION_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"AB\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},"
"{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"BA\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[],"
" \"Select_Dimension_Map\":[]},{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"CD\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}"},
{"(AB / BA) - BN",
"{\"Type\":\"SUBTRACTION_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"DIVIDE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"AB\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},"
"{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"BA\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"BN\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}"},
{"AD / (CD - ZX)",
"{\"Type\":\"DIVIDE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"AD\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},"
"{\"Type\":\"SUBTRACTION_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Value\":\"CD\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},{\"Type\":\"REFERENCE_NODE\", "
"\"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", \"Value\":\"ZX\", \"Counter_Set\":[], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}"},
{"MN * (NM / DB)",
"{\"Type\":\"MULTIPLY_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"MN\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},"
"{\"Type\":\"DIVIDE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"NM\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},"
"{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"DB\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}"}};
for(auto [op, expected] : expressionToExpected)
{
RawAST* ast = nullptr;
auto* buf = yy_scan_string(op.c_str());
yyparse(&ast);
ASSERT_TRUE(ast);
EXPECT_EQ(fmt::format("{}", *ast), expected);
yy_delete_buffer(buf);
delete ast;
}
}
TEST(parser, reduction)
{
std::vector<std::tuple<std::string, std::string>> expressionToExpected = {
{"reduce(AB, SUM, [DIMENSION_XCC,DIMENSION_SHADER_ENGINE])",
"{\"Type\":\"REDUCE_NODE\", \"REDUCE_OP\":\"SUM\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Value\":\"AB\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[\"3\",\"1\"], \"Select_Dimension_Map\":[]}"},
{"reduce(AB+CD, SUM, [DIMENSION_XCC,DIMENSION_SHADER_ENGINE])",
"{\"Type\":\"REDUCE_NODE\", \"REDUCE_OP\":\"SUM\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"ADDITION_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Value\":\"AB\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Value\":\"CD\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}], \"Reduce_Dimension_Set\":[\"3\",\"1\"], "
"\"Select_Dimension_Map\":[]}"},
{"reduce(AB,DIV, [DIMENSION_XCC,DIMENSION_SHADER_ENGINE])+reduce(DC,SUM, "
"[DIMENSION_XCC,DIMENSION_SHADER_ENGINE])",
"{\"Type\":\"ADDITION_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REDUCE_NODE\", \"REDUCE_OP\":\"DIV\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Value\":\"AB\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[\"3\",\"1\"], "
"\"Select_Dimension_Map\":[]},{\"Type\":\"REDUCE_NODE\", \"REDUCE_OP\":\"SUM\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Value\":\"DC\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[\"3\",\"1\"], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}"}};
for(auto [op, expected] : expressionToExpected)
{
RawAST* ast = nullptr;
auto* buf = yy_scan_string(op.c_str());
yyparse(&ast);
ASSERT_TRUE(ast);
EXPECT_EQ(fmt::format("{}", *ast), expected);
yy_delete_buffer(buf);
delete ast;
}
}
TEST(parser, selection)
{
std::map<std::string, std::string> expressionToExpected = {
{"select(AB, "
"[DIMENSION_SHADER_ENGINE=[1:5,7:9],DIMENSION_XCC=[0,2:4,8]])+select(DC,[DIMENSION_SHADER_"
"ENGINE=[1:3,6,8]])",
"{\"Type\":\"ADDITION_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"SELECT_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Value\":\"AB\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[\"DIMENSION_XCC:\"0,2:4,8\"\",\"DIMENSION_SHADER_ENGINE:\"1:5,"
"7:9\"\"]},"
"{\"Type\":\"SELECT_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Value\":\"DC\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[\"DIMENSION_SHADER_ENGINE:\"1:3,6,8\"\"]}], "
"\"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}"},
{"select(AB, [DIMENSION_SHADER_ENGINE=[2],DIMENSION_XCC=[1,4],DIMENSION_WGP=[3:5]])",
"{\"Type\":\"SELECT_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Value\":\"AB\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[\"DIMENSION_XCC:\"1,4\"\",\"DIMENSION_SHADER_ENGINE:\"2\"\","
"\"DIMENSION_WGP:\"3:5\"\"]}"},
{"select(AB, [DIMENSION_XCC=[0,3:6,9,11:13]])",
"{\"Type\":\"SELECT_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Value\":\"AB\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[\"DIMENSION_XCC:\"0,3:6,9,11:13\"\"]}"}};
for(auto [op, expected] : expressionToExpected)
{
RawAST* ast = nullptr;
auto* buf = yy_scan_string(op.c_str());
yyparse(&ast);
ASSERT_TRUE(ast);
auto exp = fmt::format("{}", *ast);
EXPECT_EQ(fmt::format("{}", *ast), expected);
yy_delete_buffer(buf);
delete ast;
}
}
TEST(parser, parse_counters)
{
// Checks that ASTs are properly formed from derived counters defined in XML
// Does not check accuracy, only parseability
auto derived_counters = rocprofiler::counters::loadMetrics();
for(const auto& [gfx, counter_list] : derived_counters->arch_to_metric)
{
for(const auto& v : counter_list)
{
if(!v.constant().empty() || v.expression().empty()) continue;
RawAST* ast = nullptr;
auto* buf = yy_scan_string(v.expression().c_str());
yyparse(&ast);
ASSERT_TRUE(ast);
yy_delete_buffer(buf);
delete ast;
}
}
}
TEST(parser, parse_accum_counter)
{
std::map<std::string, std::string> expressionToExpected = {
{"accumulate(SQ_WAVES,NONE)",
"{\"Type\":\"ACCUMULATE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", \"Value\""
":\"SQ_WAVES\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}"},
{"accumulate(SQ_WAVES,HIGH_RES)",
"{\"Type\":\"ACCUMULATE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"HIGH_RES\", "
"\"Value"
"\":\"SQ_WAVES\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}"},
{"accumulate(SQ_WAVES,LOW_RES)",
"{\"Type\":\"ACCUMULATE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"LOW_RES\", "
"\"Value\""
":\"SQ_WAVES\", \"Counter_Set\":[], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}"}};
for(auto [op, expected] : expressionToExpected)
{
RawAST* ast = nullptr;
auto* buf = yy_scan_string(op.c_str());
yyparse(&ast);
ASSERT_TRUE(ast);
auto exp = fmt::format("{}", *ast);
EXPECT_EQ(fmt::format("{}", *ast), expected);
yy_delete_buffer(buf);
delete ast;
}
}
TEST(parser, parse_nested_accum_counter)
{
std::map<std::string, std::string> expressionToExpected = {
{"reduce(accumulate(SQ_LEVEL_WAVES,HIGH_RES),sum)/reduce(GRBM_GUI_ACTIVE,max)/CU_NUM",
"{\"Type\":\"DIVIDE_NODE\", \"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"DIVIDE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Counter_Set\":[{\"Type\":\"REDUCE_NODE\", "
"\"REDUCE_OP\":\"sum\", \"ACCUMULATE_OP\":\"NONE\", "
"\"Counter_Set\":[{\"Type\":\"ACCUMULATE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"HIGH_RES\", \"Value\":\"SQ_LEVEL_WAVES\", \"Counter_Set\":[], "
"\"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},{\"Type\":\"REDUCE_NODE\", \"REDUCE_OP\":\"max\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Counter_Set\":[{\"Type\":\"REFERENCE_NODE\", "
"\"REDUCE_OP\":\"\", \"ACCUMULATE_OP\":\"NONE\", \"Value\":\"GRBM_GUI_ACTIVE\", "
"\"Counter_Set\":[], \"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], "
"\"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]},{\"Type\":\"REFERENCE_NODE\", \"REDUCE_OP\":\"\", "
"\"ACCUMULATE_OP\":\"NONE\", \"Value\":\"CU_NUM\", \"Counter_Set\":[], "
"\"Reduce_Dimension_Set\":[], \"Select_Dimension_Map\":[]}], \"Reduce_Dimension_Set\":[], "
"\"Select_Dimension_Map\":[]}"}};
for(auto [op, expected] : expressionToExpected)
{
RawAST* ast = nullptr;
auto* buf = yy_scan_string(op.c_str());
yyparse(&ast);
ASSERT_TRUE(ast);
auto exp = fmt::format("{}", *ast);
EXPECT_EQ(fmt::format("{}", *ast), expected);
yy_delete_buffer(buf);
delete ast;
}
}
// TEST(parser, parse_complex_counters)
// {
// std::map<std::string, std::string> expressionToExpected = {
// {"(TCC_EA_WRREQ_sum-TCC_EA_WRREQ_64B_sum)+(TCC_EA1_WRREQ_sum-TCC_EA1_WRREQ_64B_sum)+(TCC_EA_WRREQ_64B_sum+TCC_EA1_WRREQ_64B_sum)*2",""}
// };
// for(auto [op, expected] : expressionToExpected)
// {
// RawAST* ast = nullptr;
// auto* buf = yy_scan_string(op.c_str());
// yyparse(&ast);
// ASSERT_TRUE(ast);
// EXPECT_EQ(fmt::format("{}", *ast), expected);
// yy_delete_buffer(buf);
// delete ast;
// }
// }