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// Copyright Yahoo. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#pragma once
#include <vespa/vespalib/stllike/string.h>
#include <initializer_list>
#include <cassert>
#include <vector>
namespace vespalib::eval::test {
/**
* A collection of expressions with parameter bindings and their
* expected evaluation results. This is intended as the basis for
* conformance testing of evaluation engines.
**/
class EvalSpec
{
private:
typedef double (*fun_1_ref)(double);
typedef double (*fun_2_ref)(double, double);
struct Expression {
struct Case {
std::vector<double> param_values;
double expected_result;
Case(std::initializer_list<double> param_values_in, double expected_result_in)
: param_values(param_values_in), expected_result(expected_result_in) {}
};
std::vector<vespalib::string> param_names;
vespalib::string expression;
std::vector<Case> cases;
Expression(std::initializer_list<vespalib::string> param_names_in, vespalib::string expression_in)
: param_names(param_names_in), expression(expression_in) {}
~Expression();
Expression &add_case(std::initializer_list<double> param_values, double expected_result);
Expression &add_cases(std::initializer_list<double> a_values, fun_1_ref fun);
Expression &add_cases(std::initializer_list<double> a_values, std::initializer_list<double> b_values, fun_2_ref fun);
};
std::vector<Expression> expressions;
Expression &add_expression(std::initializer_list<vespalib::string> param_names, vespalib::string expression) {
expressions.emplace_back(param_names, expression);
return expressions.back();
}
struct ParamSpec {
vespalib::string name;
double min;
double max;
std::vector<double> expand(size_t inner_samples) const {
std::vector<double> ret;
ret.push_back(min);
if (max == min) {
return ret;
}
ret.push_back(max);
if ((min < 0.0) && (max > 0.0)) {
ret.push_back(0.0);
}
double delta = (max - min) / (inner_samples + 1);
for(size_t i = 0; i < inner_samples; ++i) {
double x = min + (delta * (i + 1));
if (x != 0.0) {
ret.push_back(x);
}
}
return ret;
}
};
void add_rule(const ParamSpec &a_spec, const vespalib::string &expression, fun_1_ref ref);
void add_rule(const ParamSpec &a_spec, const ParamSpec &b_spec, const vespalib::string &expression, fun_2_ref ref);
public:
struct EvalTest {
static vespalib::string as_string(const std::vector<vespalib::string> ¶m_names,
const std::vector<double> ¶m_values,
const vespalib::string &expression);
bool is_same(double expected, double actual);
virtual void next_expression(const std::vector<vespalib::string> ¶m_names,
const vespalib::string &expression) = 0;
virtual void handle_case(const std::vector<vespalib::string> ¶m_names,
const std::vector<double> ¶m_values,
const vespalib::string &expression,
double expected_result) = 0;
virtual ~EvalTest() {}
};
//-------------------------------------------------------------------------
void add_terminal_cases(); // a, 1.0
void add_arithmetic_cases(); // a + b, a ^ b
void add_function_call_cases(); // cos(a), max(a, b)
void add_tensor_operation_cases(); // map(a,f(x)(sin(x)))
void add_comparison_cases(); // a < b, c != d
void add_set_membership_cases(); // a in [x, y, z]
void add_boolean_cases(); // 1.0 && 0.0
void add_if_cases(); // if (a < b, a, b)
void add_complex_cases(); // ...
//-------------------------------------------------------------------------
void add_all_cases() {
add_terminal_cases();
add_arithmetic_cases();
add_function_call_cases();
add_tensor_operation_cases();
add_comparison_cases();
add_set_membership_cases();
add_boolean_cases();
add_if_cases();
add_complex_cases();
}
//-------------------------------------------------------------------------
void each_case(EvalTest &test) const {
for (const Expression &expr: expressions) {
test.next_expression(expr.param_names, expr.expression);
for (const Expression::Case &expr_case: expr.cases) {
test.handle_case(expr.param_names, expr_case.param_values, expr.expression,
expr_case.expected_result);
}
}
}
};
} // namespace
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