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xo-interpreter2/utest/VirtualSchematikaMachine.test.cpp

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/** @file VirtualSchematikaMachine.test.cpp
*
* @author Roland Conybeare, Jan 2026
**/
#include <xo/interpreter2/init_interpreter2.hpp>
#include <xo/interpreter2/VirtualSchematikaMachine.hpp>
#include <xo/interpreter2/Closure.hpp>
#include <xo/object2/Array.hpp>
#include <xo/object2/List.hpp>
#include <xo/object2/Float.hpp>
#include <xo/object2/Integer.hpp>
#include <xo/object2/Boolean.hpp>
#include <xo/object2/RuntimeError.hpp>
#include <xo/stringtable2/UniqueString.hpp>
#include <xo/alloc2/Arena.hpp>
#include <xo/alloc2/abox.hpp>
#include <xo/facet/TypeRegistry.hpp>
#include <xo/indentlog/print/hex.hpp>
#include <catch2/catch.hpp>
namespace xo {
using xo::scm::DVirtualSchematikaMachine;
using xo::scm::VsmConfig;
using xo::scm::VsmResultExt;
using xo::scm::DClosure;
using xo::scm::DString;
using xo::scm::DUniqueString; // aks Symbol in lisp
using xo::scm::DList;
using xo::scm::DArray;
using xo::scm::DFloat;
using xo::scm::DBoolean;
using xo::scm::DInteger;
// using xo::scm::DRuntimeError;
using xo::mm::AGCObject;
using xo::mm::MemorySizeInfo;
using xo::mm::AAllocator;
using xo::mm::DArena;
using xo::mm::ArenaConfig;
using xo::facet::FacetRegistry;
using xo::facet::TypeRegistry;
using xo::reflect::typeseq;
using span_type = xo::scm::DVirtualSchematikaMachine::span_type;
using Catch::Matchers::WithinAbs;
using std::cout;
using std::endl;
static InitEvidence s_init = (InitSubsys<S_interpreter2_tag>::require());
namespace ut {
struct ArenaShim {
explicit ArenaShim(const std::string & name, std::size_t size = 16*1024)
: arena_(ArenaConfig().with_name(name).with_size(size))
{
}
obj<AAllocator,DArena> to_op() { return obj<AAllocator,DArena>(&arena_); }
DArena arena_;
};
struct VsmFixture {
explicit VsmFixture(const std::string & testname,
bool debug_flag,
const VsmConfig & cfg = VsmConfig())
: aux_mm_{testname}
{
vsm_.adopt(DVirtualSchematikaMachine::make(aux_mm_.to_op(),
cfg.with_debug_flag(debug_flag),
aux_mm_.to_op()));
}
~VsmFixture() {}
bool log_memory_layout(scope * p_log)
{
auto visitor = [p_log](const MemorySizeInfo & info) {
*p_log && (*p_log)(xtag("resource", info.resource_name_),
xtag("used", info.used_),
xtag("alloc", info.allocated_),
xtag("commit", info.committed_),
xtag("resv", info.reserved_));
};
aux_mm_.arena_.visit_pools(visitor);
TypeRegistry::instance().visit_pools(visitor);
FacetRegistry::instance().visit_pools(visitor);
vsm_->visit_pools(visitor);
return true;
}
bool session_with_complete_input(const char * input_text,
std::function<bool (const VsmResultExt & x)> verify_result)
{
INFO(xtag("input_text", input_text));
bool eof_flag = false;
vsm_->begin_interactive_session();
VsmResultExt res = vsm_->read_eval_print(span_type::from_cstr(input_text),
eof_flag);
REQUIRE(res.is_value());
REQUIRE(res.value());
REQUIRE(verify_result(res));
REQUIRE(res.remaining_.size() == 1);
REQUIRE(*res.remaining_.lo() == '\n');
return true;
}
ArenaShim aux_mm_;
abox<AGCObject,DVirtualSchematikaMachine> vsm_;
};
void vsm_std_utest_pattern(bool debug_flag,
const std::string & testname,
const char * input,
std::function<bool (const VsmResultExt & x)> verify_fn,
const VsmConfig & cfg = VsmConfig())
{
scope log(XO_DEBUG(debug_flag), xtag("test", testname));
VsmFixture vsm_fixture(testname, debug_flag, cfg);
vsm_fixture.session_with_complete_input(input, verify_fn);
log && vsm_fixture.log_memory_layout(&log);
}
void vsm_multi_utest_pattern(bool debug_flag,
const std::string & testname,
const char * input,
std::vector<std::function<bool (const VsmResultExt &)>> verify_fns,
bool eof_flag = false,
const VsmConfig & cfg = VsmConfig())
{
scope log(XO_DEBUG(debug_flag), xtag("test", testname));
VsmFixture vsm_fixture(testname, debug_flag, cfg);
auto & vsm = vsm_fixture.vsm_;
vsm->begin_interactive_session();
span_type remaining = span_type::from_cstr(input);
for (std::size_t i = 0; i < verify_fns.size(); ++i) {
log && log(xtag("i_expr", i), xtag("input", remaining));
VsmResultExt res = vsm->read_eval_print(remaining, eof_flag);
REQUIRE(res.is_value());
REQUIRE(res.value());
log && log(xtag("res.tseq", res.value()->_typeseq()),
xtag("res.type", TypeRegistry::id2name(res.value()->_typeseq())));
REQUIRE(verify_fns[i](res));
if (i + 1 == verify_fns.size()) {
REQUIRE(res.remaining_.size() == 1);
REQUIRE(*res.remaining_.lo() == '\n');
} else {
REQUIRE(res.remaining_.size() > 1);
}
remaining = res.remaining_;
}
log && vsm_fixture.log_memory_layout(&log);
}
TEST_CASE("VirtualSchematikaMachine-ctor", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
bool c_debug_flag = true;
scope log(XO_DEBUG(c_debug_flag), xtag("test", testname));
VsmFixture vsm_fixture(testname, c_debug_flag);
log && vsm_fixture.log_memory_layout(&log);
}
TEST_CASE("VirtualSchematikaMachine-const1", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DFloat>::from(*res.value());
REQUIRE(x);
REQUIRE(x._typeseq() == typeseq::id<DFloat>());
REQUIRE_THAT(x.data()->value(), WithinAbs(3.141592635, 1e-6));
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname, "3.1415926535;", verify_fn);
}
TEST_CASE("VirtualSchematikaMachine-const2", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DInteger>::from(*res.value());
REQUIRE(x);
REQUIRE(x._typeseq() == typeseq::id<DInteger>());
REQUIRE(x.data()->value() == 1011);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname, "1011;", verify_fn);
}
TEST_CASE("VirtualSchematikaMachine-arith1", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DFloat>::from(*res.value());
REQUIRE(x);
REQUIRE(x._typeseq() == typeseq::id<DFloat>());
REQUIRE(x.data()->value() == 1.570796325);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"3.14159265 * 0.5;",
verify_fn);
}
TEST_CASE("VirtualSchematikaMachine-arith2", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = true;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DFloat>::from(*res.value());
REQUIRE(x);
REQUIRE(x.data()->value() == 6.2831853);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"3.14159265 / 0.5;", verify_fn);
}
TEST_CASE("VirtualSchematikaMachine-cmp1", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DBoolean>::from(*res.value());
REQUIRE(x);
REQUIRE(x.data()->value() == true);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"123 == 123;",
verify_fn);
}
TEST_CASE("VirtualSchematikaMachine-if", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DString>::from(*res.value());
REQUIRE(x);
REQUIRE(strcmp(x.data()->chars(), "equal") == 0);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"if 123 == 123 then \"equal\" else \"notequal\";",
verify_fn);
}
TEST_CASE("VirtualSchematikaMachine-lambda1", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DClosure>::from(*res.value());
REQUIRE(x);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"lambda (x : i64) -> i64 { x * x; }",
verify_fn);
}
TEST_CASE("VirtualSchematikaMachine-apply2", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DInteger>::from(*res.value());
REQUIRE(x);
REQUIRE(x->value() == 195);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"(lambda (x : i64, y : i64) { x * y; })(13, 15);",
verify_fn);
}
TEST_CASE("VirtualSchematikaMachine-def1", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DUniqueString>::from(*res.value());
REQUIRE(x);
REQUIRE(strcmp(x->chars(), "foo") == 0);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"def foo = 3.14159;",
verify_fn);
}
TEST_CASE("VirtualSchematikaMachine-def2", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = true;
vsm_multi_utest_pattern(
c_debug_flag, testname,
"def foo = 3.14159; foo;",
{
[](const VsmResultExt & res) {
auto x = obj<AGCObject,DUniqueString>::from(*res.value());
REQUIRE(x);
REQUIRE(strcmp(x->chars(), "foo") == 0);
return true;
},
[](const VsmResultExt & res) {
auto x = obj<AGCObject,DFloat>::from(*res.value());
REQUIRE(x);
REQUIRE_THAT(x->value(), WithinAbs(3.14159, 1e-6));
return true;
}
});
}
TEST_CASE("VirtualSchematikaMachine-def3", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = true;
vsm_multi_utest_pattern(
c_debug_flag, testname,
"def fact = lambda (n) { if (n == 0) then 1 else n * fact(n - 1) };",
{
[](const VsmResultExt & res) {
auto x = obj<AGCObject,DUniqueString>::from(*res.value());
REQUIRE(x);
REQUIRE(strcmp(x->chars(), "fact") == 0);
return true;
}
},
/*eof_flag=*/true);
}
TEST_CASE("VirtualSchematikaMachine-if2", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = true;
vsm_multi_utest_pattern(
c_debug_flag, testname,
"def n = 4; if (n == 4) then n * 3 else n * 5;",
{
[](const VsmResultExt & res) {
auto x = obj<AGCObject,DUniqueString>::from(*res.value());
REQUIRE(x);
REQUIRE(strcmp(x->chars(), "n") == 0);
return true;
},
[](const VsmResultExt & res) {
auto x = obj<AGCObject,DInteger>::from(*res.value());
REQUIRE(x);
REQUIRE(x->value() == 12);
return true;
}
},
/*eof_flag=*/true);
}
TEST_CASE("VirtualSchematikaMachine-fact0", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
vsm_multi_utest_pattern(
c_debug_flag, testname,
"def fact = lambda (n) { if (n == 0) then 1 else n * fact(n - 1) }; fact(4);",
{
[](const VsmResultExt & res) {
auto x = obj<AGCObject,DUniqueString>::from(*res.value());
REQUIRE(x);
REQUIRE(strcmp(x->chars(), "fact") == 0);
return true;
},
[](const VsmResultExt & res) {
auto x = obj<AGCObject,DInteger>::from(*res.value());
REQUIRE(x);
REQUIRE(x->value() == 24);
return true;
}
},
/*eof_flag=*/true);
}
TEST_CASE("VirtualSchematikaMachine-qliteral1", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = true;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DFloat>::from(*res.value());
REQUIRE(x);
REQUIRE(x->value() == 4.5);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"#q{ 4.5 };",
verify_fn,
VsmConfig().with_parser_debug_flag(c_debug_flag));
}
TEST_CASE("VirtualSchematikaMachine-qlist", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DList>::from(*res.value());
REQUIRE(x);
REQUIRE(x->size() == 2);
auto x0 = obj<AGCObject,DFloat>::from(x->at(0));
REQUIRE(x0);
REQUIRE(x0->value() == 4.5);
auto x1 = obj<AGCObject,DFloat>::from(x->at(1));
REQUIRE(x1);
REQUIRE(x1->value() == 7.2);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"#q{ (4.5 7.2) };",
verify_fn,
VsmConfig().with_parser_debug_flag(c_debug_flag));
}
TEST_CASE("VirtualSchematikaMachine-qarray", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = true;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DArray>::from(*res.value());
REQUIRE(x);
REQUIRE(x->size() == 2);
auto x0 = obj<AGCObject,DFloat>::from(x->at(0));
REQUIRE(x0);
REQUIRE(x0->value() == 4.5);
auto x1 = obj<AGCObject,DFloat>::from(x->at(1));
REQUIRE(x1);
REQUIRE(x1->value() == 7.2);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"#q{ [4.5 7.2] };",
verify_fn,
VsmConfig().with_parser_debug_flag(c_debug_flag));
}
TEST_CASE("VirtualSchematikaMachine-report_memory_use", "[interpreter2][VSM]")
{
const auto & testname = Catch::getResultCapture().getCurrentTestName();
constexpr bool c_debug_flag = false;
auto verify_fn = [](const VsmResultExt & res) {
auto x = obj<AGCObject,DBoolean>::from(*res.value());
REQUIRE(x);
REQUIRE(x->value() == true);
return true;
};
vsm_std_utest_pattern(c_debug_flag, testname,
"report-memory-use();",
verify_fn,
VsmConfig().with_parser_debug_flag(c_debug_flag));
}
} /*namespace ut*/
} /*namespace xo*/
/* end SchematikaParser.test.cpp */
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