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#include "../../../lib/AST/Interp/Descriptor.h"
#include "../../../lib/AST/Interp/Context.h"
#include "../../../lib/AST/Interp/Program.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/Decl.h"
#include "clang/ASTMatchers/ASTMatchFinder.h"
#include "clang/ASTMatchers/ASTMatchers.h"
#include "clang/Tooling/Tooling.h"
#include "gtest/gtest.h"
using namespace clang;
using namespace clang::interp;
using namespace clang::ast_matchers;
/// Inspect generated Descriptors as well as the pointers we create.
///
TEST(Descriptor, Primitives) {
constexpr char Code[] =
"struct A { bool a; bool b; };\n"
"struct S {\n"
" float f;\n"
" char s[4];\n"
" A a[3];\n"
" short l[3][3];\n"
" int EmptyA[0];\n"
"};\n"
"constexpr S d = {0.0, \"foo\", {{true, false}, {false, true}, {false, false}},\n"
" {{1, 2, 3}, {4, 5, 6}, {7, 8, 9}}, {}};\n";
auto AST = tooling::buildASTFromCodeWithArgs(
Code, {"-fexperimental-new-constant-interpreter"});
const VarDecl *D = selectFirst<VarDecl>(
"d", match(varDecl().bind("d"), AST->getASTContext()));
ASSERT_NE(D, nullptr);
const auto &Ctx = AST->getASTContext().getInterpContext();
Program &Prog = Ctx.getProgram();
// Global is registered.
ASSERT_TRUE(Prog.getGlobal(D));
// Get a Pointer to the global.
const Pointer &GlobalPtr = Prog.getPtrGlobal(*Prog.getGlobal(D));
// Test Descriptor of the struct S.
const Descriptor *GlobalDesc = GlobalPtr.getFieldDesc();
ASSERT_TRUE(GlobalDesc == GlobalPtr.getDeclDesc());
ASSERT_TRUE(GlobalDesc->asDecl() == D);
ASSERT_FALSE(GlobalDesc->asExpr());
ASSERT_TRUE(GlobalDesc->asValueDecl() == D);
ASSERT_FALSE(GlobalDesc->asFieldDecl());
ASSERT_FALSE(GlobalDesc->asRecordDecl());
// Still true because this is a global variable.
ASSERT_TRUE(GlobalDesc->getMetadataSize() == sizeof(GlobalInlineDescriptor));
ASSERT_FALSE(GlobalDesc->isPrimitiveArray());
ASSERT_FALSE(GlobalDesc->isCompositeArray());
ASSERT_FALSE(GlobalDesc->isZeroSizeArray());
ASSERT_FALSE(GlobalDesc->isUnknownSizeArray());
ASSERT_FALSE(GlobalDesc->isPrimitive());
ASSERT_FALSE(GlobalDesc->isArray());
ASSERT_TRUE(GlobalDesc->isRecord());
// Test the Record for the struct S.
const Record *SRecord = GlobalDesc->ElemRecord;
ASSERT_TRUE(SRecord);
ASSERT_TRUE(SRecord->getNumFields() == 5);
ASSERT_TRUE(SRecord->getNumBases() == 0);
ASSERT_FALSE(SRecord->getDestructor());
// First field.
const Record::Field *F1 = SRecord->getField(0u);
ASSERT_TRUE(F1);
ASSERT_FALSE(F1->isBitField());
ASSERT_TRUE(F1->Desc->isPrimitive());
// Second field.
const Record::Field *F2 = SRecord->getField(1u);
ASSERT_TRUE(F2);
ASSERT_FALSE(F2->isBitField());
ASSERT_TRUE(F2->Desc->isArray());
ASSERT_FALSE(F2->Desc->isCompositeArray());
ASSERT_TRUE(F2->Desc->isPrimitiveArray());
ASSERT_FALSE(F2->Desc->isPrimitive());
ASSERT_FALSE(F2->Desc->ElemDesc);
ASSERT_EQ(F2->Desc->getNumElems(), 4u);
ASSERT_TRUE(F2->Desc->getElemSize() > 0);
// Third field.
const Record::Field *F3 = SRecord->getField(2u);
ASSERT_TRUE(F3);
ASSERT_FALSE(F3->isBitField());
ASSERT_TRUE(F3->Desc->isArray());
ASSERT_TRUE(F3->Desc->isCompositeArray());
ASSERT_FALSE(F3->Desc->isPrimitiveArray());
ASSERT_FALSE(F3->Desc->isPrimitive());
ASSERT_TRUE(F3->Desc->ElemDesc);
ASSERT_EQ(F3->Desc->getNumElems(), 3u);
ASSERT_TRUE(F3->Desc->getElemSize() > 0);
// Fourth field.
// Multidimensional arrays are treated as composite arrays, even
// if the value type is primitive.
const Record::Field *F4 = SRecord->getField(3u);
ASSERT_TRUE(F4);
ASSERT_FALSE(F4->isBitField());
ASSERT_TRUE(F4->Desc->isArray());
ASSERT_TRUE(F4->Desc->isCompositeArray());
ASSERT_FALSE(F4->Desc->isPrimitiveArray());
ASSERT_FALSE(F4->Desc->isPrimitive());
ASSERT_TRUE(F4->Desc->ElemDesc);
ASSERT_EQ(F4->Desc->getNumElems(), 3u);
ASSERT_TRUE(F4->Desc->getElemSize() > 0);
ASSERT_TRUE(F4->Desc->ElemDesc->isPrimitiveArray());
// Fifth field. Zero-size array.
const Record::Field *F5 = SRecord->getField(4u);
ASSERT_TRUE(F5);
ASSERT_FALSE(F5->isBitField());
ASSERT_TRUE(F5->Desc->isArray());
ASSERT_FALSE(F5->Desc->isCompositeArray());
ASSERT_TRUE(F5->Desc->isPrimitiveArray());
ASSERT_FALSE(F5->Desc->isPrimitive());
ASSERT_EQ(F5->Desc->getNumElems(), 0u);
// Check pointer stuff.
// Global variables have an inline descriptor.
ASSERT_TRUE(GlobalPtr.isRoot());
ASSERT_TRUE(GlobalPtr.isLive());
ASSERT_FALSE(GlobalPtr.isZero());
ASSERT_FALSE(GlobalPtr.isField());
ASSERT_TRUE(GlobalPtr.getFieldDesc() == GlobalPtr.getDeclDesc());
ASSERT_TRUE(GlobalPtr.getOffset() == 0);
ASSERT_FALSE(GlobalPtr.inArray());
ASSERT_FALSE(GlobalPtr.isArrayElement());
ASSERT_FALSE(GlobalPtr.isArrayRoot());
ASSERT_FALSE(GlobalPtr.inPrimitiveArray());
ASSERT_TRUE(GlobalPtr.isStatic());
ASSERT_TRUE(GlobalPtr.isInitialized());
ASSERT_FALSE(GlobalPtr.isOnePastEnd());
ASSERT_FALSE(GlobalPtr.isElementPastEnd());
// Pointer to the first field (a primitive).
const Pointer &PF1 = GlobalPtr.atField(F1->Offset);
ASSERT_TRUE(PF1.isLive());
ASSERT_TRUE(PF1.isInitialized());
ASSERT_TRUE(PF1.isField());
ASSERT_FALSE(PF1.inArray());
ASSERT_FALSE(PF1.isArrayElement());
ASSERT_FALSE(PF1.isArrayRoot());
ASSERT_FALSE(PF1.isOnePastEnd());
ASSERT_FALSE(PF1.isRoot());
ASSERT_TRUE(PF1.getFieldDesc()->isPrimitive());
ASSERT_TRUE(Pointer::hasSameBase(PF1, GlobalPtr));
ASSERT_TRUE(PF1.getBase() == GlobalPtr);
// Pointer to the second field (a primitive array).
const Pointer &PF2 = GlobalPtr.atField(F2->Offset);
ASSERT_TRUE(PF2.isLive());
ASSERT_TRUE(PF2.isInitialized());
ASSERT_TRUE(PF2.isField());
ASSERT_TRUE(PF2.inArray());
ASSERT_FALSE(PF2.isArrayElement());
ASSERT_TRUE(PF2.isArrayRoot());
ASSERT_TRUE(PF2.getNumElems() == 4);
ASSERT_FALSE(PF2.isOnePastEnd());
ASSERT_FALSE(PF2.isRoot());
ASSERT_FALSE(PF2.getFieldDesc()->isPrimitive());
ASSERT_TRUE(PF2.getFieldDesc()->isArray());
ASSERT_TRUE(Pointer::hasSameBase(PF2, GlobalPtr));
ASSERT_TRUE(PF2.getBase() == GlobalPtr);
// Check contents of field 2 (a primitive array).
{
const Pointer &E1 = PF2.atIndex(0);
ASSERT_TRUE(E1.isLive());
ASSERT_FALSE(E1.isArrayRoot());
ASSERT_TRUE(E1.isArrayElement());
ASSERT_TRUE(E1.inPrimitiveArray());
ASSERT_TRUE(E1.deref<char>() == 'f');
ASSERT_EQ(E1.getIndex(), 0u);
ASSERT_TRUE(E1 == E1.atIndex(0));
ASSERT_TRUE(Pointer::hasSameBase(E1, GlobalPtr));
const Pointer &E2 = PF2.atIndex(1);
ASSERT_TRUE(E2.isLive());
ASSERT_FALSE(E2.isArrayRoot());
ASSERT_TRUE(E2.isArrayElement());
ASSERT_EQ(E2.getIndex(), 1u);
// Narrow() doesn't do anything on primitive array elements, as there is
// nothing to narrow into.
ASSERT_EQ(E2.narrow(), E2);
// ... so this should also hold.
ASSERT_EQ(E2.expand(), E2);
ASSERT_EQ(E2.narrow().expand(), E2);
// .atIndex(1).atIndex(1) should be index 1.
ASSERT_EQ(PF2.atIndex(1).atIndex(1), PF2.atIndex(1));
ASSERT_EQ(PF2.atIndex(1).narrow().atIndex(1), PF2.atIndex(1));
// getArray() should give us the array field again.
ASSERT_EQ(E2.getArray(), PF2);
// One-after-the-end pointer.
const Pointer &O = PF2.atIndex(PF2.getNumElems());
ASSERT_TRUE(O.isLive());
ASSERT_TRUE(O.isOnePastEnd());
ASSERT_TRUE(O.isInitialized());
ASSERT_TRUE(O.getIndex() == PF2.getNumElems());
}
// Pointer to the third field (a composite array).
const Pointer &PF3 = GlobalPtr.atField(F3->Offset);
ASSERT_TRUE(PF3.isLive());
ASSERT_TRUE(PF3.isInitialized());
ASSERT_TRUE(PF3.isField());
ASSERT_TRUE(PF3.inArray());
ASSERT_TRUE(PF3.isArrayRoot());
ASSERT_FALSE(PF3.isArrayElement());
ASSERT_TRUE(PF3.getNumElems() == 3);
ASSERT_FALSE(PF3.isOnePastEnd());
ASSERT_FALSE(PF3.isRoot());
ASSERT_FALSE(PF3.getFieldDesc()->isPrimitive());
ASSERT_TRUE(PF3.getFieldDesc()->isArray());
ASSERT_TRUE(Pointer::hasSameBase(PF3, GlobalPtr));
ASSERT_TRUE(PF3.getBase() == GlobalPtr);
ASSERT_EQ(PF3.getRecord(), nullptr);
ASSERT_TRUE(PF3.getElemRecord());
// Check contents of field 3 (a composite array).
{
const Pointer &E1 = PF3.atIndex(0);
// Note that we didn't call narrow() above, so this points
// to an array element and not just a field.
ASSERT_TRUE(E1.isLive());
ASSERT_EQ(E1.getIndex(), 0);
ASSERT_TRUE(E1.isInitialized());
ASSERT_TRUE(E1.isArrayElement());
ASSERT_TRUE(E1.inArray());
ASSERT_FALSE(E1.isArrayRoot());
ASSERT_FALSE(E1.isRoot());
ASSERT_EQ(E1.getArray(), PF3);
ASSERT_TRUE(E1.isField());
ASSERT_TRUE(E1.getElemRecord());
ASSERT_FALSE(E1.getRecord());
// Now the same with narrow().
const Pointer &NE1 = PF3.atIndex(0).narrow();
ASSERT_NE(E1, NE1);
ASSERT_TRUE(NE1.isLive());
ASSERT_EQ(NE1.getIndex(), 0);
ASSERT_TRUE(NE1.isInitialized());
ASSERT_FALSE(NE1.isArrayElement());
ASSERT_TRUE(NE1.isField());
ASSERT_FALSE(NE1.inArray());
ASSERT_FALSE(NE1.isArrayRoot());
ASSERT_FALSE(NE1.isRoot());
// Not possible, since this is narrow()ed:
// ASSERT_EQ(NE1.getArray(), PF3);
ASSERT_EQ(NE1.expand(), E1);
ASSERT_FALSE(NE1.getElemRecord());
ASSERT_TRUE(NE1.getRecord());
// Second element, NOT narrowed.
const Pointer &E2 = PF3.atIndex(1);
ASSERT_TRUE(E2.isLive());
ASSERT_EQ(E2.getIndex(), 1);
ASSERT_TRUE(E2.isInitialized());
ASSERT_TRUE(E2.isArrayElement());
ASSERT_TRUE(E2.isField());
ASSERT_TRUE(E2.inArray());
ASSERT_FALSE(E2.isArrayRoot());
ASSERT_FALSE(E2.isRoot());
ASSERT_EQ(E2.getArray(), PF3);
// Second element, narrowed.
const Pointer &NE2 = PF3.atIndex(1).narrow();
ASSERT_TRUE(NE2.isLive());
ASSERT_EQ(NE2.getIndex(), 0);
ASSERT_TRUE(NE2.isInitialized());
ASSERT_FALSE(NE2.isArrayElement());
ASSERT_TRUE(NE2.isField());
ASSERT_FALSE(NE2.inArray());
ASSERT_FALSE(NE2.isArrayRoot());
ASSERT_FALSE(NE2.isRoot());
// Not possible, since this is narrow()ed:
// ASSERT_EQ(NE2.getArray(), PF3);
ASSERT_FALSE(NE2.getElemRecord());
ASSERT_TRUE(NE2.getRecord());
// Chained atIndex() without narrowing in between.
ASSERT_EQ(PF3.atIndex(1).atIndex(1), PF3.atIndex(1));
// First field of the second element.
const Pointer &FP1 = NE2.atField(NE2.getRecord()->getField(0u)->Offset);
ASSERT_TRUE(FP1.isLive());
ASSERT_TRUE(FP1.isInitialized());
ASSERT_EQ(FP1.getBase(), NE2);
ASSERT_FALSE(FP1.isArrayElement());
ASSERT_FALSE(FP1.inArray());
ASSERT_FALSE(FP1.inPrimitiveArray());
ASSERT_TRUE(FP1.isField());
// One-past-the-end of a composite array.
const Pointer &O = PF3.atIndex(PF3.getNumElems()).narrow();
ASSERT_TRUE(O.isOnePastEnd());
ASSERT_TRUE(O.isElementPastEnd());
}
// Pointer to the fourth field (a multidimensional primitive array).
const Pointer &PF4 = GlobalPtr.atField(F4->Offset);
ASSERT_TRUE(PF4.isLive());
ASSERT_TRUE(PF4.isInitialized());
ASSERT_TRUE(PF4.isField());
ASSERT_TRUE(PF4.inArray());
ASSERT_TRUE(PF4.isArrayRoot());
ASSERT_FALSE(PF4.isArrayElement());
ASSERT_TRUE(PF4.getNumElems() == 3);
ASSERT_FALSE(PF4.isOnePastEnd());
ASSERT_FALSE(PF4.isRoot());
ASSERT_FALSE(PF4.getFieldDesc()->isPrimitive());
ASSERT_TRUE(PF4.getFieldDesc()->isArray());
ASSERT_TRUE(Pointer::hasSameBase(PF4, GlobalPtr));
ASSERT_TRUE(PF4.getBase() == GlobalPtr);
ASSERT_EQ(PF4.getRecord(), nullptr);
ASSERT_EQ(PF4.getElemRecord(), nullptr);
ASSERT_NE(PF4.getField(), nullptr);
ASSERT_TRUE(PF4.getFieldDesc()->ElemDesc->isPrimitiveArray());
// Check contents of field 4 (a primitive array).
{
// Pointer to the first element, is of type short[3].
const Pointer &E1 = PF4.atIndex(0);
ASSERT_NE(E1, PF4);
ASSERT_TRUE(E1.isLive());
ASSERT_TRUE(E1.isArrayElement());
ASSERT_TRUE(E1.inArray());
ASSERT_EQ(E1.getNumElems(), 3u);
ASSERT_EQ(E1.getIndex(), 0u);
ASSERT_EQ(E1.getArray(), PF4);
// Now narrow()'ed.
const Pointer &NE1 = PF4.atIndex(0).narrow();
ASSERT_NE(NE1, PF4);
ASSERT_NE(NE1, E1);
ASSERT_TRUE(NE1.isLive());
ASSERT_FALSE(NE1.isArrayElement());
ASSERT_TRUE(NE1.isArrayRoot());
ASSERT_FALSE(NE1.getFieldDesc()->isCompositeArray());
ASSERT_TRUE(NE1.getFieldDesc()->isPrimitiveArray());
ASSERT_EQ(NE1.getFieldDesc()->getNumElems(), 3u);
ASSERT_TRUE(NE1.inArray());
ASSERT_EQ(NE1.getNumElems(), 3u);
ASSERT_EQ(NE1.getIndex(), 0u);
// Last element of the first dimension.
const Pointer &PE1 = PF4.atIndex(0).narrow().atIndex(2);
ASSERT_TRUE(PE1.isLive());
ASSERT_EQ(PE1.deref<short>(), 3);
ASSERT_EQ(PE1.getArray(), NE1);
ASSERT_EQ(PE1.getIndex(), 2u);
// third dimension
const Pointer &E3 = PF4.atIndex(2);
ASSERT_NE(E3, PF4);
ASSERT_TRUE(E3.isLive());
ASSERT_TRUE(E3.isArrayElement());
ASSERT_FALSE(E3.isArrayRoot());
ASSERT_TRUE(E3.inArray());
ASSERT_EQ(E3.getNumElems(), 3u);
ASSERT_EQ(E3.getIndex(), 2u);
// Same, but narrow()'ed.
const Pointer &NE3 = PF4.atIndex(2).narrow();
ASSERT_NE(NE3, PF4);
ASSERT_NE(NE3, E1);
ASSERT_TRUE(NE3.isLive());
ASSERT_FALSE(NE3.isArrayElement());
ASSERT_TRUE(NE3.isArrayRoot());
ASSERT_FALSE(NE3.getFieldDesc()->isCompositeArray());
ASSERT_TRUE(NE3.getFieldDesc()->isPrimitiveArray());
ASSERT_EQ(NE3.getFieldDesc()->getNumElems(), 3u);
ASSERT_TRUE(NE3.inArray());
ASSERT_EQ(NE3.getNumElems(), 3u);
// This is narrow()'ed, so not an "array elemnet"
ASSERT_EQ(PF4.atIndex(2).getIndex(), 2u);
ASSERT_EQ(NE3.getIndex(), 0u);
// Last element of the last dimension
const Pointer &PE3 = PF4.atIndex(2).narrow().atIndex(2);
ASSERT_TRUE(PE3.isLive());
ASSERT_EQ(PE3.deref<short>(), 9);
ASSERT_EQ(PE3.getArray(), NE3);
ASSERT_EQ(PE3.getIndex(), 2u);
}
// Zero-size array.
{
const Pointer &PF5 = GlobalPtr.atField(F5->Offset);
ASSERT_TRUE(PF5.isZeroSizeArray());
ASSERT_FALSE(PF5.isOnePastEnd());
ASSERT_FALSE(PF5.isElementPastEnd());
}
}
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