[flang-commits] [flang] [flang][lowering] Implement component-wise initialization for derived types (PR #187465)
via flang-commits
flang-commits at lists.llvm.org
Thu Mar 19 02:43:07 PDT 2026
https://github.com/refuseno created https://github.com/llvm/llvm-project/pull/187465
## The Issue
Right now, the compiler defaults to doing a full `memcpy` when initializing derived types.
Following our earlier discussion, this patch introduces a component-wise initialization approach. It only sets up the parts of the derived type that need it, reducing redundant copying.
## Key changes
In `flang/lib/Lower/ConvertVariable.cpp`:
- Introduce a `-enable-precise-init` flag (disabled by default) to control the initialization behavior.
- When the flag is enabled, the compiler calls `genDerivedTypeComponentInit` function to handle the precise, component-wise initialization.
- Add a regression test.
## Validation & performance
No compile or semantic errors observed on SPEC2006 and SPEC2017 with the new feature enabled for validation.
- SPEC2017 627.cam4_s on x86 (Intel i9-11900K, Rocket Lake): **+40%**
- SPEC2017 627.cam4_s on SpacemiT Key Stone K1: **+19%**
>From d1c9fb4cb033bbc5b9e8e5fb95dfa902b7f79496 Mon Sep 17 00:00:00 2001
From: hechenxi <hechenxi at bosc.ac.cn>
Date: Thu, 19 Mar 2026 16:27:03 +0800
Subject: [PATCH] component-wise-init
Co-authored-by: ict-ql <168183727+ict-ql at users.noreply.github.com>
Co-authored-by: buggfg <wangyingying at bosc.ac.cn>
---
flang/lib/Lower/ConvertVariable.cpp | 369 +++++++++++++++++++----
flang/test/Lower/component-wise-init.f90 | 94 ++++++
2 files changed, 407 insertions(+), 56 deletions(-)
create mode 100644 flang/test/Lower/component-wise-init.f90
diff --git a/flang/lib/Lower/ConvertVariable.cpp b/flang/lib/Lower/ConvertVariable.cpp
index 0ededb364bfea..16509b855ce9e 100644
--- a/flang/lib/Lower/ConvertVariable.cpp
+++ b/flang/lib/Lower/ConvertVariable.cpp
@@ -10,7 +10,6 @@
//
//===----------------------------------------------------------------------===//
-#include "flang/Lower/ConvertVariable.h"
#include "flang/Lower/AbstractConverter.h"
#include "flang/Lower/Allocatable.h"
#include "flang/Lower/BoxAnalyzer.h"
@@ -20,6 +19,7 @@
#include "flang/Lower/ConvertExpr.h"
#include "flang/Lower/ConvertExprToHLFIR.h"
#include "flang/Lower/ConvertProcedureDesignator.h"
+#include "flang/Lower/ConvertVariable.h"
#include "flang/Lower/Mangler.h"
#include "flang/Lower/PFTBuilder.h"
#include "flang/Lower/StatementContext.h"
@@ -32,12 +32,15 @@
#include "flang/Optimizer/Builder/IntrinsicCall.h"
#include "flang/Optimizer/Builder/Runtime/Derived.h"
#include "flang/Optimizer/Builder/Todo.h"
+#include "flang/Optimizer/CodeGen/TypeConverter.h"
#include "flang/Optimizer/Dialect/CUF/CUFOps.h"
#include "flang/Optimizer/Dialect/FIRAttr.h"
#include "flang/Optimizer/Dialect/FIRDialect.h"
#include "flang/Optimizer/Dialect/FIROps.h"
+#include "flang/Optimizer/Dialect/FIRType.h"
#include "flang/Optimizer/Dialect/Support/FIRContext.h"
#include "flang/Optimizer/HLFIR/HLFIROps.h"
+#include "flang/Optimizer/Support/DataLayout.h"
#include "flang/Optimizer/Support/FatalError.h"
#include "flang/Optimizer/Support/InternalNames.h"
#include "flang/Optimizer/Support/Utils.h"
@@ -48,6 +51,11 @@
#include "llvm/Support/Debug.h"
#include <optional>
+static llvm::cl::opt<bool> enablePreciseInit(
+ "enable-precise-init",
+ llvm::cl::desc("Enable precise component initialization for derived types"),
+ llvm::cl::init(false));
+
static llvm::cl::opt<bool>
allowAssumedRank("allow-assumed-rank",
llvm::cl::desc("Enable assumed rank lowering"),
@@ -585,15 +593,14 @@ fir::GlobalOp Fortran::lower::defineGlobal(
if (details && details->init()) {
auto sym{*details->init()};
if (sym) // Has a procedure target.
- createGlobalInitialization(
- builder, global, [&](fir::FirOpBuilder &b) {
- Fortran::lower::StatementContext stmtCtx(
- /*cleanupProhibited=*/true);
- auto box{Fortran::lower::convertProcedureDesignatorInitialTarget(
- converter, loc, *sym)};
- auto castTo{builder.createConvert(loc, symTy, box)};
- fir::HasValueOp::create(b, loc, castTo);
- });
+ createGlobalInitialization(builder, global, [&](fir::FirOpBuilder &b) {
+ Fortran::lower::StatementContext stmtCtx(
+ /*cleanupProhibited=*/true);
+ auto box{Fortran::lower::convertProcedureDesignatorInitialTarget(
+ converter, loc, *sym)};
+ auto castTo{builder.createConvert(loc, symTy, box)};
+ fir::HasValueOp::create(b, loc, castTo);
+ });
else { // Has NULL() target.
createGlobalInitialization(builder, global, [&](fir::FirOpBuilder &b) {
auto box{fir::factory::createNullBoxProc(b, loc, symTy)};
@@ -812,6 +819,244 @@ mustBeDefaultInitializedAtRuntime(const Fortran::lower::pft::Variable &var) {
return Fortran::lower::hasDefaultInitialization(sym);
}
+namespace {
+/// Determines if \p sym represents a complex derived type.
+/// A derived type is considered complex if it contains allocatable, pointer,
+/// or procedure pointer components, or nested complex derived types.
+static bool isComplexDerivedType(const Fortran::semantics::Symbol &sym) {
+ const Fortran::semantics::DeclTypeSpec *declTy = sym.GetType();
+ if (!declTy || !declTy->AsDerived())
+ return false;
+ const Fortran::semantics::DerivedTypeSpec &derivedSpec = *declTy->AsDerived();
+ const Fortran::semantics::Scope *scope = derivedSpec.GetScope();
+ if (!scope)
+ return false;
+ const auto &typeDetails =
+ derivedSpec.typeSymbol().get<Fortran::semantics::DerivedTypeDetails>();
+ for (const auto &compName : typeDetails.componentNames()) {
+ auto iter = scope->find(compName);
+ if (iter == scope->cend())
+ continue;
+ const Fortran::semantics::Symbol &compSym = iter->second.get();
+ const auto *objDetails =
+ compSym.detailsIf<Fortran::semantics::ObjectEntityDetails>();
+ const auto *procDetails =
+ compSym.detailsIf<Fortran::semantics::ProcEntityDetails>();
+ if (Fortran::semantics::IsAllocatableOrPointer(compSym)) {
+ return true;
+ } else if (procDetails && procDetails->init().has_value()) {
+ return true;
+ } else if (objDetails && objDetails->init() && compSym.Rank() > 0) {
+ return true;
+ } else if (isComplexDerivedType(compSym)) {
+ return true;
+ }
+ }
+ return false;
+}
+
+/// Performs precise, component-wise initialization for \p derivedSpec,
+/// selectively generating IR only for components that require it.
+static void genDerivedTypeComponentInit(
+ Fortran::lower::AbstractConverter &converter, mlir::Location loc,
+ const Fortran::semantics::DerivedTypeSpec &derivedSpec,
+ mlir::Value baseAddr, fir::RecordType recTy) {
+ fir::FirOpBuilder &builder = converter.getFirOpBuilder();
+ const Fortran::semantics::Scope *scope = derivedSpec.GetScope();
+ if (!scope)
+ return;
+ const auto &typeDetails =
+ derivedSpec.typeSymbol().get<Fortran::semantics::DerivedTypeDetails>();
+ for (const auto &compName : typeDetails.componentNames()) {
+ auto scopeIter = scope->find(compName);
+ if (scopeIter == scope->cend())
+ continue;
+ const Fortran::semantics::Symbol &compSym = scopeIter->second.get();
+ const auto *objDetails =
+ compSym.detailsIf<Fortran::semantics::ObjectEntityDetails>();
+ const auto *procDetails =
+ compSym.detailsIf<Fortran::semantics::ProcEntityDetails>();
+ // Determine if the component requires initialization.
+ // Dynamic descriptors (pointers/allocatables) and explicitly initialized
+ // entities must be processed.
+ bool needsInit = Fortran::semantics::IsAllocatableOrPointer(compSym) ||
+ (objDetails && objDetails->init()) ||
+ (procDetails && procDetails->init().has_value());
+ if (!needsInit && !Fortran::lower::hasDefaultInitialization(compSym))
+ continue;
+ std::string name = converter.getRecordTypeFieldName(compSym);
+ mlir::Type compFirTy = recTy.getType(name);
+ if (!compFirTy)
+ continue;
+ // Compute the memory coordinate of the current component.
+ auto fieldIdx = builder.create<fir::FieldIndexOp>(
+ loc, fir::FieldType::get(recTy.getContext()), name, recTy,
+ mlir::ValueRange{});
+ auto compAddr =
+ builder.create<fir::CoordinateOp>(loc, builder.getRefType(compFirTy),
+ baseAddr, mlir::ValueRange{fieldIdx});
+
+ // Case A: Standard data components (ObjectEntityDetails).
+ if (objDetails) {
+ if (objDetails->init()) {
+ // Subcase A.1: Component has explicit initialization.
+ if (Fortran::semantics::IsPointer(compSym)) {
+ // Subcase A.1.1: Pointer with explicit target.
+ std::string globalName = fir::NameUniquer::doGenerated(
+ (converter.mangleName(derivedSpec) + fir::kNameSeparator + name +
+ fir::kNameSeparator + "init")
+ .str());
+ fir::GlobalOp global = builder.getNamedGlobal(globalName);
+ if (!global) {
+ global = builder.createGlobal(loc, compFirTy, globalName,
+ builder.createInternalLinkage(),
+ mlir::Attribute{}, true);
+ createGlobalInitialization(
+ builder, global, [&](fir::FirOpBuilder &b) {
+ mlir::Value initBox = Fortran::lower::genInitialDataTarget(
+ converter, loc, compFirTy, *objDetails->init());
+ b.create<fir::HasValueOp>(loc, initBox);
+ });
+ }
+ auto srcAddr = builder.create<fir::AddrOfOp>(loc, global.resultType(),
+ global.getSymbol());
+ mlir::Value loadedBox = builder.create<fir::LoadOp>(loc, srcAddr);
+ builder.create<fir::StoreOp>(loc, loadedBox, compAddr);
+ } else {
+ // Subcase A.1.2: Non-pointer components with explicit initialization.
+ Fortran::lower::StatementContext stmtCtx(/*cleanupProhibited=*/true);
+ if (mlir::isa<fir::SequenceType>(compFirTy)) {
+ std::string globalName = fir::NameUniquer::doGenerated(
+ (converter.mangleName(derivedSpec) + fir::kNameSeparator +
+ name + fir::kNameSeparator + "arr_init")
+ .str());
+ fir::GlobalOp global = builder.getNamedGlobal(globalName);
+ if (!global) {
+ const auto &initExpr = objDetails->init().value();
+ cuf::DataAttributeAttr dataAttr = {};
+ global = Fortran::lower::tryCreatingDenseGlobal(
+ builder, loc, compFirTy, globalName,
+ builder.createInternalLinkage(), /*isConst=*/true, initExpr,
+ dataAttr);
+ }
+ if (global) {
+ auto srcAddr = builder.create<fir::AddrOfOp>(
+ loc, global.resultType(), global.getSymbol());
+ builder.create<fir::CopyOp>(loc, srcAddr, compAddr,
+ /*noOverlap=*/true);
+ } else {
+ Fortran::lower::StatementContext inlineCtx;
+ Fortran::lower::SymMap emptyMap;
+ hlfir::Entity lhs{compAddr};
+ hlfir::Entity rhs = Fortran::lower::convertExprToHLFIR(
+ loc, converter, objDetails->init().value(), emptyMap,
+ inlineCtx);
+ builder.create<hlfir::AssignOp>(loc, rhs, lhs);
+ }
+ } else {
+ // Scalar component: Evaluate the expression and store directly.
+ fir::ExtendedValue exInitVal = genInitializerExprValue(
+ converter, loc, objDetails->init().value(), stmtCtx);
+ mlir::Value initVal = fir::getBase(exInitVal);
+ if (fir::isa_ref_type(initVal.getType()) &&
+ !fir::isa_ref_type(compFirTy))
+ initVal = builder.create<fir::LoadOp>(loc, initVal);
+ mlir::Value castVal =
+ builder.createConvert(loc, compFirTy, initVal);
+ builder.create<fir::StoreOp>(loc, castVal, compAddr);
+ }
+ }
+ } else if (Fortran::semantics::IsAllocatableOrPointer(compSym)) {
+ // Subcase A.2: Pointer or allocatable without initialization.
+ // Create deallocated/disassociated value.
+ std::string globalName = fir::NameUniquer::doGenerated(
+ (converter.mangleName(derivedSpec) + fir::kNameSeparator + name +
+ fir::kNameSeparator + "null_box")
+ .str());
+ fir::GlobalOp global = builder.getNamedGlobal(globalName);
+ if (!global) {
+ global = builder.createGlobal(loc, compFirTy, globalName,
+ builder.createInternalLinkage(),
+ mlir::Attribute{}, true);
+ createGlobalInitialization(
+ builder, global, [&](fir::FirOpBuilder &b) {
+ mlir::Value nullBox = fir::factory::createUnallocatedBox(
+ b, loc, compFirTy, mlir::ValueRange{});
+ b.create<fir::HasValueOp>(loc, nullBox);
+ });
+ }
+ auto srcAddr = builder.create<fir::AddrOfOp>(loc, global.resultType(),
+ global.getSymbol());
+ mlir::Value loadedBox = builder.create<fir::LoadOp>(loc, srcAddr);
+ builder.create<fir::StoreOp>(loc, loadedBox, compAddr);
+ } else if (Fortran::lower::hasDefaultInitialization(compSym)) {
+ // Subcase A.3: Nested derived type requires initialization.
+ // Derived type has no explicit initialization but contains
+ // components requiring initialization.
+ if (mlir::isa<fir::SequenceType>(compFirTy) &&
+ isComplexDerivedType(compSym)) {
+ // Complex derived type arrays.
+ mlir::Value box =
+ builder.createBox(loc, fir::ExtendedValue(compAddr));
+ fir::runtime::genDerivedTypeInitialize(builder, loc, box);
+ } else if (isComplexDerivedType(compSym)) {
+ // Complex derived type scalars.
+ const Fortran::semantics::DeclTypeSpec *compDeclTy =
+ compSym.GetType();
+ auto nestedRecTy = mlir::dyn_cast<fir::RecordType>(compFirTy);
+ genDerivedTypeComponentInit(converter, loc, *compDeclTy->AsDerived(),
+ compAddr, nestedRecTy);
+ } else {
+ // Simple derived type scalars.
+ Fortran::lower::StatementContext stmtCtx;
+ mlir::Value initVal = genDefaultInitializerValue(
+ converter, loc, compSym, compFirTy, stmtCtx);
+ mlir::Value castVal = builder.createConvert(loc, compFirTy, initVal);
+ builder.create<fir::StoreOp>(loc, castVal, compAddr);
+ }
+ }
+ }
+ // Case B: Procedure pointers (ProcEntityDetails).
+ else if (procDetails) {
+ if (procDetails->init().has_value()) {
+ // Has a procedure or NULL() target.
+ std::string globalName = fir::NameUniquer::doGenerated(
+ (converter.mangleName(derivedSpec) + fir::kNameSeparator + name +
+ fir::kNameSeparator + "init")
+ .str());
+ fir::GlobalOp global = builder.getNamedGlobal(globalName);
+ if (!global) {
+ global = builder.createGlobal(loc, compFirTy, globalName,
+ builder.createInternalLinkage(),
+ mlir::Attribute{}, true);
+ createGlobalInitialization(
+ builder, global, [&](fir::FirOpBuilder &b) {
+ mlir::Value procBox;
+ auto targetSym = *procDetails->init();
+ if (targetSym) {
+ procBox =
+ Fortran::lower::convertProcedureDesignatorInitialTarget(
+ converter, loc, *targetSym);
+ procBox = b.createConvert(loc, compFirTy, procBox);
+ } else {
+ procBox = fir::factory::createNullBoxProc(b, loc, compFirTy);
+ }
+ b.create<fir::HasValueOp>(loc, procBox);
+ });
+ }
+ auto srcAddr = builder.create<fir::AddrOfOp>(loc, global.resultType(),
+ global.getSymbol());
+ mlir::Value loadedBox = builder.create<fir::LoadOp>(loc, srcAddr);
+ builder.create<fir::StoreOp>(loc, loadedBox, compAddr);
+ } else {
+ // Has no initialization.
+ continue;
+ }
+ }
+ }
+}
+} // namespace
+
/// Call default initialization runtime routine to initialize \p var.
void Fortran::lower::defaultInitializeAtRuntime(
Fortran::lower::AbstractConverter &converter,
@@ -823,8 +1068,8 @@ void Fortran::lower::defaultInitializeAtRuntime(
// 15.5.2.12 point 3, absent optional dummies are not initialized.
// Creating descriptor/passing null descriptor to the runtime would
// create runtime crashes.
- auto isPresent = fir::IsPresentOp::create(builder, loc, builder.getI1Type(),
- fir::getBase(exv));
+ auto isPresent = builder.create<fir::IsPresentOp>(loc, builder.getI1Type(),
+ fir::getBase(exv));
builder.genIfThen(loc, isPresent)
.genThen([&]() {
auto box = builder.createBox(loc, exv);
@@ -839,56 +1084,68 @@ void Fortran::lower::defaultInitializeAtRuntime(
mlir::Type symTy = converter.genType(sym);
const auto *details =
sym.detailsIf<Fortran::semantics::ObjectEntityDetails>();
- if (details && !Fortran::semantics::IsPolymorphic(sym) &&
+ bool useFastInit =
+ details && !Fortran::semantics::IsPolymorphic(sym) &&
declTy->category() ==
Fortran::semantics::DeclTypeSpec::Category::TypeDerived &&
!mlir::isa<fir::SequenceType>(symTy) &&
!sym.test(Fortran::semantics::Symbol::Flag::OmpPrivate) &&
!sym.test(Fortran::semantics::Symbol::Flag::OmpFirstPrivate) &&
- !Fortran::semantics::HasCUDAComponent(sym)) {
- std::string globalName = fir::NameUniquer::doGenerated(
- (converter.mangleName(*declTy->AsDerived()) + fir::kNameSeparator +
- fir::kDerivedTypeInitSuffix)
- .str());
- mlir::Location loc = genLocation(converter, sym);
- mlir::StringAttr linkage = builder.createInternalLinkage();
- fir::GlobalOp global = builder.getNamedGlobal(globalName);
- if (!global && details->init()) {
- global = builder.createGlobal(loc, symTy, globalName, linkage,
- mlir::Attribute{},
- /*isConst=*/true,
- /*isTarget=*/false,
- /*dataAttr=*/{});
- createGlobalInitialization(
- builder, global, [&](fir::FirOpBuilder &builder) {
- Fortran::lower::StatementContext stmtCtx(
- /*cleanupProhibited=*/true);
- fir::ExtendedValue initVal = genInitializerExprValue(
- converter, loc, details->init().value(), stmtCtx);
- mlir::Value castTo =
- builder.createConvert(loc, symTy, fir::getBase(initVal));
- fir::HasValueOp::create(builder, loc, castTo);
- });
- } else if (!global) {
- global = builder.createGlobal(loc, symTy, globalName, linkage,
- mlir::Attribute{},
- /*isConst=*/true,
- /*isTarget=*/false,
- /*dataAttr=*/{});
- createGlobalInitialization(
- builder, global, [&](fir::FirOpBuilder &builder) {
- Fortran::lower::StatementContext stmtCtx(
- /*cleanupProhibited=*/true);
- mlir::Value initVal = genDefaultInitializerValue(
- converter, loc, sym, symTy, stmtCtx);
- mlir::Value castTo = builder.createConvert(loc, symTy, initVal);
- fir::HasValueOp::create(builder, loc, castTo);
- });
+ !Fortran::semantics::HasCUDAComponent(sym);
+ if (useFastInit) {
+ if (enablePreciseInit) {
+ // Precise initialization
+ mlir::Value baseAddr = fir::getBase(exv);
+ const auto &derivedSpec = *sym.GetType()->AsDerived();
+ auto recTy = mlir::cast<fir::RecordType>(
+ fir::unwrapPassByRefType(baseAddr.getType()));
+ genDerivedTypeComponentInit(converter, loc, derivedSpec, baseAddr,
+ recTy);
+ } else {
+ std::string globalName = fir::NameUniquer::doGenerated(
+ (converter.mangleName(*declTy->AsDerived()) + fir::kNameSeparator +
+ fir::kDerivedTypeInitSuffix)
+ .str());
+ mlir::Location loc = genLocation(converter, sym);
+ mlir::StringAttr linkage = builder.createInternalLinkage();
+ fir::GlobalOp global = builder.getNamedGlobal(globalName);
+ if (!global && details->init()) {
+ global = builder.createGlobal(loc, symTy, globalName, linkage,
+ mlir::Attribute{},
+ /*isConst=*/true,
+ /*isTarget=*/false,
+ /*dataAttr=*/{});
+ createGlobalInitialization(
+ builder, global, [&](fir::FirOpBuilder &builder) {
+ Fortran::lower::StatementContext stmtCtx(
+ /*cleanupProhibited=*/true);
+ fir::ExtendedValue initVal = genInitializerExprValue(
+ converter, loc, details->init().value(), stmtCtx);
+ mlir::Value castTo =
+ builder.createConvert(loc, symTy, fir::getBase(initVal));
+ builder.create<fir::HasValueOp>(loc, castTo);
+ });
+ } else if (!global) {
+ global = builder.createGlobal(loc, symTy, globalName, linkage,
+ mlir::Attribute{},
+ /*isConst=*/true,
+ /*isTarget=*/false,
+ /*dataAttr=*/{});
+ createGlobalInitialization(
+ builder, global, [&](fir::FirOpBuilder &builder) {
+ Fortran::lower::StatementContext stmtCtx(
+ /*cleanupProhibited=*/true);
+ mlir::Value initVal = genDefaultInitializerValue(
+ converter, loc, sym, symTy, stmtCtx);
+ mlir::Value castTo = builder.createConvert(loc, symTy, initVal);
+ builder.create<fir::HasValueOp>(loc, castTo);
+ });
+ }
+ auto addrOf = builder.create<fir::AddrOfOp>(loc, global.resultType(),
+ global.getSymbol());
+ builder.create<fir::CopyOp>(loc, addrOf, fir::getBase(exv),
+ /*noOverlap=*/true);
}
- auto addrOf = fir::AddrOfOp::create(builder, loc, global.resultType(),
- global.getSymbol());
- fir::CopyOp::create(builder, loc, addrOf, fir::getBase(exv),
- /*noOverlap=*/true);
} else {
mlir::Value box = builder.createBox(loc, exv);
fir::runtime::genDerivedTypeInitialize(builder, loc, box);
diff --git a/flang/test/Lower/component-wise-init.f90 b/flang/test/Lower/component-wise-init.f90
new file mode 100644
index 0000000000000..2b751e784dc47
--- /dev/null
+++ b/flang/test/Lower/component-wise-init.f90
@@ -0,0 +1,94 @@
+! RUN: bbc -emit-fir -enable-precise-init %s -o - | FileCheck %s
+
+! Test for precise component-wise initialization of derived types
+! to avoid generating large, fully-initialized global templates (sparse initialization).
+
+module my_types
+ type :: InnerType
+ integer :: flag = 42
+ real, pointer :: p
+ real, allocatable :: arr(:)
+ end type InnerType
+
+ type :: OuterType
+ real, pointer :: q
+ integer :: explicit_arr(3) = [10, 20, 30]
+ real(8) :: uninit_buffer(80, 100, 100)
+ type(InnerType) :: nested
+ type(InnerType) :: nested_arr(2)
+ end type OuterType
+end module my_types
+
+subroutine test_complex_init()
+ use my_types
+ type(OuterType) :: my_var
+ call do_something(my_var)
+end subroutine test_complex_init
+
+! ==============================================================================
+! FileCheck Assertions
+! ==============================================================================
+
+! CHECK-LABEL: func.func @_QPtest_complex_init()
+
+! Ensure we allocate the local variable
+! CHECK: %[[MY_VAR:.*]] = fir.alloca !fir.type<_QMmy_typesToutertype{{.*}}>
+
+! ------------------------------------------------------------------------------
+! 1. Check pointer 'q' initialization (First component, offset 0, no coordinate_of needed)
+! ------------------------------------------------------------------------------
+! CHECK: %[[Q_NULL_BOX_ADDR:.*]] = fir.address_of(@_QQ_QMmy_typesToutertype.q.{{(null_box|init)}})
+! CHECK: %[[Q_NULL_BOX:.*]] = fir.load %[[Q_NULL_BOX_ADDR]]
+! CHECK: fir.store %[[Q_NULL_BOX]] to %{{.*}}
+
+! ------------------------------------------------------------------------------
+! 2. Check explicit array initialization
+! ------------------------------------------------------------------------------
+! CHECK: %[[EXPLICIT_ARR_ADDR:.*]] = fir.coordinate_of %{{.*}}, explicit_arr
+! CHECK: %[[EXPLICIT_ARR_INIT:.*]] = fir.address_of(@_QQ_QMmy_typesToutertype.explicit_arr.arr_init)
+! CHECK: fir.copy %[[EXPLICIT_ARR_INIT]] to %[[EXPLICIT_ARR_ADDR]]
+
+! ------------------------------------------------------------------------------
+! 3. Check scalar derived type 'nested' component-wise precise initialization
+! ------------------------------------------------------------------------------
+! CHECK: %[[NESTED_ADDR:.*]] = fir.coordinate_of %{{.*}}, nested
+
+! -> Check 'flag' (integer = 42)
+! CHECK: %[[FLAG_ADDR:.*]] = fir.coordinate_of %[[NESTED_ADDR]], flag
+! CHECK: fir.store %c42{{.*}} to %[[FLAG_ADDR]]
+
+! -> Check 'p' (pointer)
+! CHECK: %[[P_ADDR:.*]] = fir.coordinate_of %[[NESTED_ADDR]], p
+! CHECK: %[[P_INIT_ADDR:.*]] = fir.address_of(@_QQ_QMmy_typesTinnertype.p.{{(null_box|init)}})
+! CHECK: %[[P_INIT_VAL:.*]] = fir.load %[[P_INIT_ADDR]]
+! CHECK: fir.store %[[P_INIT_VAL]] to %[[P_ADDR]]
+
+! -> Check 'arr' (allocatable)
+! CHECK: %[[ARR_ADDR:.*]] = fir.coordinate_of %[[NESTED_ADDR]], arr
+! CHECK: %[[ARR_INIT_ADDR:.*]] = fir.address_of(@_QQ_QMmy_typesTinnertype.arr.null_box)
+! CHECK: %[[ARR_INIT_VAL:.*]] = fir.load %[[ARR_INIT_ADDR]]
+! CHECK: fir.store %[[ARR_INIT_VAL]] to %[[ARR_ADDR]]
+
+! ------------------------------------------------------------------------------
+! 4. Check derived type array 'nested_arr' initialization (Runtime call)
+! ------------------------------------------------------------------------------
+! CHECK: %[[NESTED_ARR_ADDR:.*]] = fir.coordinate_of %{{.*}}, nested_arr
+! CHECK: %[[NESTED_ARR_BOX:.*]] = fir.embox %[[NESTED_ARR_ADDR]]
+! CHECK: %[[NESTED_ARR_PTR:.*]] = fir.convert %[[NESTED_ARR_BOX]]
+! CHECK: fir.call @_FortranAInitialize(%[[NESTED_ARR_PTR]], {{.*}})
+
+
+! ------------------------------------------------------------------------------
+! Global Variables Check
+! ------------------------------------------------------------------------------
+
+! CRITICAL: Ensure NO full derived type initialization templates are generated!
+! We should NOT see fir.global for the entire DerivedInit.
+! CHECK-NOT: fir.global internal @_QQ_QMmy_typesToutertype.DerivedInit
+! CHECK-NOT: fir.global internal @_QQ_QMmy_typesTinnertype.DerivedInit
+
+! Verify the fine-grained component global constants exist
+! CHECK-DAG: fir.global internal @_QQ_QMmy_typesToutertype.explicit_arr.arr_init(dense<[10, 20, 30]> : tensor<3xi32>)
+! CHECK-DAG: fir.global internal @_QQ_QMmy_typesToutertype.q.{{(null_box|init)}}
+! CHECK-DAG: fir.global internal @_QQ_QMmy_typesTinnertype.p.{{(null_box|init)}}
+! CHECK-DAG: fir.global internal @_QQ_QMmy_typesTinnertype.arr.null_box
\ No newline at end of file
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