test/CodeGenCXX/trivial-auto-var-init.cpp - clang - Git at Google

 // RUN: %clang_cc1 -triple x86_64-unknown-unknown -fblocks %s -emit-llvm -o - | FileCheck %s -check-prefix=UNINIT
 // RUN: %clang_cc1 -triple x86_64-unknown-unknown -fblocks -ftrivial-auto-var-init=pattern %s -emit-llvm -o - | FileCheck %s -check-prefix=PATTERN
 // RUN: %clang_cc1 -triple x86_64-unknown-unknown -fblocks -ftrivial-auto-var-init=zero %s -emit-llvm -o - | FileCheck %s -check-prefix=ZERO

 // None of the synthesized globals should contain `undef`.
 // PATTERN-NOT: undef
 // ZERO-NOT: undef

 template<typename T> void used(T &) noexcept;

 extern "C" {

 // UNINIT-LABEL:  test_selfinit(
 // ZERO-LABEL:    test_selfinit(
 // ZERO: store i32 0, i32* %self, align 4
 // PATTERN-LABEL: test_selfinit(
 // PATTERN: store i32 -1431655766, i32* %self, align 4
 void test_selfinit() {
   int self = self + 1;
   used(self);
 }

 // UNINIT-LABEL:  test_block(
 // ZERO-LABEL:    test_block(
 // ZERO: store i32 0, i32* %block
 // PATTERN-LABEL: test_block(
 // PATTERN: store i32 -1431655766, i32* %block
 void test_block() {
   __block int block;
   used(block);
 }

 // Using the variable being initialized is typically UB in C, but for blocks we
 // can be nice: they imply extra book-keeping and we can do the auto-init before
 // any of said book-keeping.
 //
 // UNINIT-LABEL:  test_block_self_init(
 // ZERO-LABEL:    test_block_self_init(
 // ZERO:          %block = alloca <{ i8*, i32, i32, i8*, %struct.__block_descriptor*, i8* }>, align 8
 // ZERO:          %captured1 = getelementptr inbounds %struct.__block_byref_captured, %struct.__block_byref_captured* %captured, i32 0, i32 4
 // ZERO-NEXT:     store %struct.XYZ* null, %struct.XYZ** %captured1, align 8
 // ZERO:          %call = call %struct.XYZ* @create(
 // PATTERN-LABEL: test_block_self_init(
 // PATTERN:       %block = alloca <{ i8*, i32, i32, i8*, %struct.__block_descriptor*, i8* }>, align 8
 // PATTERN:       %captured1 = getelementptr inbounds %struct.__block_byref_captured, %struct.__block_byref_captured* %captured, i32 0, i32 4
 // PATTERN-NEXT:  store %struct.XYZ* inttoptr (i64 -6148914691236517206 to %struct.XYZ*), %struct.XYZ** %captured1, align 8
 // PATTERN:       %call = call %struct.XYZ* @create(
 using Block = void (^)();
 typedef struct XYZ {
   Block block;
 } * xyz_t;
 void test_block_self_init() {
   extern xyz_t create(Block block);
   __block xyz_t captured = create(^() {
     used(captured);
   });
 }

 // Capturing with escape after initialization is also an edge case.
 //
 // UNINIT-LABEL:  test_block_captures_self_after_init(
 // ZERO-LABEL:    test_block_captures_self_after_init(
 // ZERO:          %block = alloca <{ i8*, i32, i32, i8*, %struct.__block_descriptor*, i8* }>, align 8
 // ZERO:          %captured1 = getelementptr inbounds %struct.__block_byref_captured.1, %struct.__block_byref_captured.1* %captured, i32 0, i32 4
 // ZERO-NEXT:     store %struct.XYZ* null, %struct.XYZ** %captured1, align 8
 // ZERO:          %call = call %struct.XYZ* @create(
 // PATTERN-LABEL: test_block_captures_self_after_init(
 // PATTERN:       %block = alloca <{ i8*, i32, i32, i8*, %struct.__block_descriptor*, i8* }>, align 8
 // PATTERN:       %captured1 = getelementptr inbounds %struct.__block_byref_captured.1, %struct.__block_byref_captured.1* %captured, i32 0, i32 4
 // PATTERN-NEXT:  store %struct.XYZ* inttoptr (i64 -6148914691236517206 to %struct.XYZ*), %struct.XYZ** %captured1, align 8
 // PATTERN:       %call = call %struct.XYZ* @create(
 void test_block_captures_self_after_init() {
   extern xyz_t create(Block block);
   __block xyz_t captured;
   captured = create(^() {
     used(captured);
   });
 }

 // This type of code is currently not handled by zero / pattern initialization.
 // The test will break when that is fixed.
 // UNINIT-LABEL:  test_goto_unreachable_value(
 // ZERO-LABEL:    test_goto_unreachable_value(
 // ZERO-NOT: store {{.*}}%oops
 // PATTERN-LABEL: test_goto_unreachable_value(
 // PATTERN-NOT: store {{.*}}%oops
 void test_goto_unreachable_value() {
   goto jump;
   int oops;
  jump:
   used(oops);
 }

 // This type of code is currently not handled by zero / pattern initialization.
 // The test will break when that is fixed.
 // UNINIT-LABEL:  test_goto(
 // ZERO-LABEL:    test_goto(
 // ZERO: if.then:
 // ZERO: br label %jump
 // ZERO: store i32 0, i32* %oops, align 4
 // ZERO: br label %jump
 // ZERO: jump:
 // PATTERN-LABEL: test_goto(
 // PATTERN: if.then:
 // PATTERN: br label %jump
 // PATTERN: store i32 -1431655766, i32* %oops, align 4
 // PATTERN: br label %jump
 // PATTERN: jump:
 void test_goto(int i) {
   if (i)
     goto jump;
   int oops;
  jump:
   used(oops);
 }

 // This type of code is currently not handled by zero / pattern initialization.
 // The test will break when that is fixed.
 // UNINIT-LABEL:  test_switch(
 // ZERO-LABEL:    test_switch(
 // ZERO:      sw.bb:
 // ZERO-NEXT: store i32 0, i32* %oops, align 4
 // ZERO:      sw.bb1:
 // ZERO-NEXT: call void @{{.*}}used
 // PATTERN-LABEL: test_switch(
 // PATTERN:      sw.bb:
 // PATTERN-NEXT: store i32 -1431655766, i32* %oops, align 4
 // PATTERN:      sw.bb1:
 // PATTERN-NEXT: call void @{{.*}}used
 void test_switch(int i) {
   switch (i) {
   case 0:
     int oops;
     break;
   case 1:
     used(oops);
   }
 }

 // UNINIT-LABEL:  test_vla(
 // ZERO-LABEL:    test_vla(
 // ZERO:  %[[SIZE:[0-9]+]] = mul nuw i64 %{{.*}}, 4
 // ZERO:  call void @llvm.memset{{.*}}(i8* align 16 %{{.*}}, i8 0, i64 %[[SIZE]], i1 false)
 // PATTERN-LABEL: test_vla(
 // PATTERN:  %vla.iszerosized = icmp eq i64 %{{.*}}, 0
 // PATTERN:  br i1 %vla.iszerosized, label %vla-init.cont, label %vla-setup.loop
 // PATTERN: vla-setup.loop:
 // PATTERN:  %[[SIZE:[0-9]+]] = mul nuw i64 %{{.*}}, 4
 // PATTERN:  %vla.begin = bitcast i32* %vla to i8*
 // PATTERN:  %vla.end = getelementptr inbounds i8, i8* %vla.begin, i64 %[[SIZE]]
 // PATTERN:  br label %vla-init.loop
 // PATTERN: vla-init.loop:
 // PATTERN:  %vla.cur = phi i8* [ %vla.begin, %vla-setup.loop ], [ %vla.next, %vla-init.loop ]
 // PATTERN:  call void @llvm.memcpy{{.*}} %vla.cur, {{.*}}@__const.test_vla.vla
 // PATTERN:  %vla.next = getelementptr inbounds i8, i8* %vla.cur, i64 4
 // PATTERN:  %vla-init.isdone = icmp eq i8* %vla.next, %vla.end
 // PATTERN:  br i1 %vla-init.isdone, label %vla-init.cont, label %vla-init.loop
 // PATTERN: vla-init.cont:
 // PATTERN:  call void @{{.*}}used
 void test_vla(int size) {
   // Variable-length arrays can't have a zero size according to C11 6.7.6.2/5.
   // Neither can they be negative-sized.
   //
   // We don't use the former fact because some code creates zero-sized VLAs and
   // doesn't use them. clang makes these share locations with other stack
   // values, which leads to initialization of the wrong values.
   //
   // We rely on the later fact because it generates better code.
   //
   // Both cases are caught by UBSan.
   int vla[size];
   int *ptr = vla;
   used(ptr);
 }

 // UNINIT-LABEL:  test_alloca(
 // ZERO-LABEL:    test_alloca(
 // ZERO:          %[[SIZE:[a-z0-9]+]] = sext i32 %{{.*}} to i64
 // ZERO-NEXT:     %[[ALLOCA:[a-z0-9]+]] = alloca i8, i64 %[[SIZE]], align [[ALIGN:[0-9]+]]
 // ZERO-NEXT:     call void @llvm.memset{{.*}}(i8* align [[ALIGN]] %[[ALLOCA]], i8 0, i64 %[[SIZE]], i1 false)
 // PATTERN-LABEL: test_alloca(
 // PATTERN:       %[[SIZE:[a-z0-9]+]] = sext i32 %{{.*}} to i64
 // PATTERN-NEXT:  %[[ALLOCA:[a-z0-9]+]] = alloca i8, i64 %[[SIZE]], align [[ALIGN:[0-9]+]]
 // PATTERN-NEXT:  call void @llvm.memset{{.*}}(i8* align [[ALIGN]] %[[ALLOCA]], i8 -86, i64 %[[SIZE]], i1 false)
 void test_alloca(int size) {
   void *ptr = __builtin_alloca(size);
   used(ptr);
 }

 // UNINIT-LABEL:  test_alloca_with_align(
 // ZERO-LABEL:    test_alloca_with_align(
 // ZERO:          %[[SIZE:[a-z0-9]+]] = sext i32 %{{.*}} to i64
 // ZERO-NEXT:     %[[ALLOCA:[a-z0-9]+]] = alloca i8, i64 %[[SIZE]], align 128
 // ZERO-NEXT:     call void @llvm.memset{{.*}}(i8* align 128 %[[ALLOCA]], i8 0, i64 %[[SIZE]], i1 false)
 // PATTERN-LABEL: test_alloca_with_align(
 // PATTERN:       %[[SIZE:[a-z0-9]+]] = sext i32 %{{.*}} to i64
 // PATTERN-NEXT:  %[[ALLOCA:[a-z0-9]+]] = alloca i8, i64 %[[SIZE]], align 128
 // PATTERN-NEXT:  call void @llvm.memset{{.*}}(i8* align 128 %[[ALLOCA]], i8 -86, i64 %[[SIZE]], i1 false)
 void test_alloca_with_align(int size) {
   void *ptr = __builtin_alloca_with_align(size, 1024);
   used(ptr);
 }

 // UNINIT-LABEL:  test_struct_vla(
 // ZERO-LABEL:    test_struct_vla(
 // ZERO:  %[[SIZE:[0-9]+]] = mul nuw i64 %{{.*}}, 16
 // ZERO:  call void @llvm.memset{{.*}}(i8* align 16 %{{.*}}, i8 0, i64 %[[SIZE]], i1 false)
 // PATTERN-LABEL: test_struct_vla(
 // PATTERN:  %vla.iszerosized = icmp eq i64 %{{.*}}, 0
 // PATTERN:  br i1 %vla.iszerosized, label %vla-init.cont, label %vla-setup.loop
 // PATTERN: vla-setup.loop:
 // PATTERN:  %[[SIZE:[0-9]+]] = mul nuw i64 %{{.*}}, 16
 // PATTERN:  %vla.begin = bitcast %struct.anon* %vla to i8*
 // PATTERN:  %vla.end = getelementptr inbounds i8, i8* %vla.begin, i64 %[[SIZE]]
 // PATTERN:  br label %vla-init.loop
 // PATTERN: vla-init.loop:
 // PATTERN:  %vla.cur = phi i8* [ %vla.begin, %vla-setup.loop ], [ %vla.next, %vla-init.loop ]
 // PATTERN:  call void @llvm.memcpy{{.*}} %vla.cur, {{.*}}@__const.test_struct_vla.vla
 // PATTERN:  %vla.next = getelementptr inbounds i8, i8* %vla.cur, i64 16
 // PATTERN:  %vla-init.isdone = icmp eq i8* %vla.next, %vla.end
 // PATTERN:  br i1 %vla-init.isdone, label %vla-init.cont, label %vla-init.loop
 // PATTERN: vla-init.cont:
 // PATTERN:  call void @{{.*}}used
 void test_struct_vla(int size) {
   // Same as above, but with a struct that doesn't just memcpy.
   struct {
     float f;
     char c;
     void *ptr;
   } vla[size];
   void *ptr = static_cast<void*>(vla);
   used(ptr);
 }

 // UNINIT-LABEL:  test_zsa(
 // ZERO-LABEL:    test_zsa(
 // ZERO: %zsa = alloca [0 x i32], align 4
 // ZERO-NOT: %zsa
 // ZERO:  call void @{{.*}}used
 // PATTERN-LABEL: test_zsa(
 // PATTERN: %zsa = alloca [0 x i32], align 4
 // PATTERN-NOT: %zsa
 // PATTERN:  call void @{{.*}}used
 void test_zsa(int size) {
   // Technically not valid, but as long as clang accepts them we should do
   // something sensible (i.e. not store to the zero-size array).
   int zsa[0];
   used(zsa);
 }

 // UNINIT-LABEL:  test_huge_uninit(
 // ZERO-LABEL:    test_huge_uninit(
 // ZERO: call void @llvm.memset{{.*}}, i8 0, i64 65536,
 // PATTERN-LABEL: test_huge_uninit(
 // PATTERN: call void @llvm.memset{{.*}}, i8 -86, i64 65536,
 void test_huge_uninit() {
   // We can't emit this as an inline constant to a store instruction because
   // SDNode hits an internal size limit.
   char big[65536];
   used(big);
 }

 // UNINIT-LABEL:  test_huge_small_init(
 // ZERO-LABEL:    test_huge_small_init(
 // ZERO: call void @llvm.memset{{.*}}, i8 0, i64 65536,
 // ZERO: store i8 97,
 // ZERO: store i8 98,
 // ZERO: store i8 99,
 // ZERO: store i8 100,
 // PATTERN-LABEL: test_huge_small_init(
 // PATTERN: call void @llvm.memset{{.*}}, i8 0, i64 65536,
 // PATTERN: store i8 97,
 // PATTERN: store i8 98,
 // PATTERN: store i8 99,
 // PATTERN: store i8 100,
 void test_huge_small_init() {
   char big[65536] = { 'a', 'b', 'c', 'd' };
   used(big);
 }

 // UNINIT-LABEL:  test_huge_larger_init(
 // ZERO-LABEL:    test_huge_larger_init(
 // ZERO:  call void @llvm.memcpy{{.*}} @__const.test_huge_larger_init.big, {{.*}}, i64 65536,
 // PATTERN-LABEL: test_huge_larger_init(
 // PATTERN:  call void @llvm.memcpy{{.*}} @__const.test_huge_larger_init.big, {{.*}}, i64 65536,
 void test_huge_larger_init() {
   char big[65536] = { 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9' };
   used(big);
 }

 } // extern "C"
	// RUN: %clang_cc1 -triple x86_64-unknown-unknown -fblocks %s -emit-llvm -o - \| FileCheck %s -check-prefix=UNINIT
	// RUN: %clang_cc1 -triple x86_64-unknown-unknown -fblocks -ftrivial-auto-var-init=pattern %s -emit-llvm -o - \| FileCheck %s -check-prefix=PATTERN
	// RUN: %clang_cc1 -triple x86_64-unknown-unknown -fblocks -ftrivial-auto-var-init=zero %s -emit-llvm -o - \| FileCheck %s -check-prefix=ZERO

	// None of the synthesized globals should contain `undef`.
	// PATTERN-NOT: undef
	// ZERO-NOT: undef

	template<typename T> void used(T &) noexcept;

	extern "C" {

	// UNINIT-LABEL: test_selfinit(
	// ZERO-LABEL: test_selfinit(
	// ZERO: store i32 0, i32* %self, align 4
	// PATTERN-LABEL: test_selfinit(
	// PATTERN: store i32 -1431655766, i32* %self, align 4
	void test_selfinit() {
	int self = self + 1;
	used(self);
	}

	// UNINIT-LABEL: test_block(
	// ZERO-LABEL: test_block(
	// ZERO: store i32 0, i32* %block
	// PATTERN-LABEL: test_block(
	// PATTERN: store i32 -1431655766, i32* %block
	void test_block() {
	__block int block;
	used(block);
	}

	// Using the variable being initialized is typically UB in C, but for blocks we
	// can be nice: they imply extra book-keeping and we can do the auto-init before
	// any of said book-keeping.
	//
	// UNINIT-LABEL: test_block_self_init(
	// ZERO-LABEL: test_block_self_init(
	// ZERO: %block = alloca <{ i8, i32, i32, i8, %struct.__block_descriptor, i8 }>, align 8
	// ZERO: %captured1 = getelementptr inbounds %struct.__block_byref_captured, %struct.__block_byref_captured* %captured, i32 0, i32 4
	// ZERO-NEXT: store %struct.XYZ* null, %struct.XYZ** %captured1, align 8
	// ZERO: %call = call %struct.XYZ* @create(
	// PATTERN-LABEL: test_block_self_init(
	// PATTERN: %block = alloca <{ i8, i32, i32, i8, %struct.__block_descriptor, i8 }>, align 8
	// PATTERN: %captured1 = getelementptr inbounds %struct.__block_byref_captured, %struct.__block_byref_captured* %captured, i32 0, i32 4
	// PATTERN-NEXT: store %struct.XYZ* inttoptr (i64 -6148914691236517206 to %struct.XYZ), %struct.XYZ* %captured1, align 8
	// PATTERN: %call = call %struct.XYZ* @create(
	using Block = void (^)();
	typedef struct XYZ {
	Block block;
	} * xyz_t;
	void test_block_self_init() {
	extern xyz_t create(Block block);
	__block xyz_t captured = create(^() {
	used(captured);
	});
	}

	// Capturing with escape after initialization is also an edge case.
	//
	// UNINIT-LABEL: test_block_captures_self_after_init(
	// ZERO-LABEL: test_block_captures_self_after_init(
	// ZERO: %block = alloca <{ i8, i32, i32, i8, %struct.__block_descriptor, i8 }>, align 8
	// ZERO: %captured1 = getelementptr inbounds %struct.__block_byref_captured.1, %struct.__block_byref_captured.1* %captured, i32 0, i32 4
	// ZERO-NEXT: store %struct.XYZ* null, %struct.XYZ** %captured1, align 8
	// ZERO: %call = call %struct.XYZ* @create(
	// PATTERN-LABEL: test_block_captures_self_after_init(
	// PATTERN: %block = alloca <{ i8, i32, i32, i8, %struct.__block_descriptor, i8 }>, align 8
	// PATTERN: %captured1 = getelementptr inbounds %struct.__block_byref_captured.1, %struct.__block_byref_captured.1* %captured, i32 0, i32 4
	// PATTERN-NEXT: store %struct.XYZ* inttoptr (i64 -6148914691236517206 to %struct.XYZ), %struct.XYZ* %captured1, align 8
	// PATTERN: %call = call %struct.XYZ* @create(
	void test_block_captures_self_after_init() {
	extern xyz_t create(Block block);
	__block xyz_t captured;
	captured = create(^() {
	used(captured);
	});
	}

	// This type of code is currently not handled by zero / pattern initialization.
	// The test will break when that is fixed.
	// UNINIT-LABEL: test_goto_unreachable_value(
	// ZERO-LABEL: test_goto_unreachable_value(
	// ZERO-NOT: store {{.*}}%oops
	// PATTERN-LABEL: test_goto_unreachable_value(
	// PATTERN-NOT: store {{.*}}%oops
	void test_goto_unreachable_value() {
	goto jump;
	int oops;
	jump:
	used(oops);
	}

	// This type of code is currently not handled by zero / pattern initialization.
	// The test will break when that is fixed.
	// UNINIT-LABEL: test_goto(
	// ZERO-LABEL: test_goto(
	// ZERO: if.then:
	// ZERO: br label %jump
	// ZERO: store i32 0, i32* %oops, align 4
	// ZERO: br label %jump
	// ZERO: jump:
	// PATTERN-LABEL: test_goto(
	// PATTERN: if.then:
	// PATTERN: br label %jump
	// PATTERN: store i32 -1431655766, i32* %oops, align 4
	// PATTERN: br label %jump
	// PATTERN: jump:
	void test_goto(int i) {
	if (i)
	goto jump;
	int oops;
	jump:
	used(oops);
	}

	// This type of code is currently not handled by zero / pattern initialization.
	// The test will break when that is fixed.
	// UNINIT-LABEL: test_switch(
	// ZERO-LABEL: test_switch(
	// ZERO: sw.bb:
	// ZERO-NEXT: store i32 0, i32* %oops, align 4
	// ZERO: sw.bb1:
	// ZERO-NEXT: call void @{{.*}}used
	// PATTERN-LABEL: test_switch(
	// PATTERN: sw.bb:
	// PATTERN-NEXT: store i32 -1431655766, i32* %oops, align 4
	// PATTERN: sw.bb1:
	// PATTERN-NEXT: call void @{{.*}}used
	void test_switch(int i) {
	switch (i) {
	case 0:
	int oops;
	break;
	case 1:
	used(oops);
	}
	}

	// UNINIT-LABEL: test_vla(
	// ZERO-LABEL: test_vla(
	// ZERO: %[[SIZE:[0-9]+]] = mul nuw i64 %{{.*}}, 4
	// ZERO: call void @llvm.memset{{.}}(i8 align 16 %{{.*}}, i8 0, i64 %[[SIZE]], i1 false)
	// PATTERN-LABEL: test_vla(
	// PATTERN: %vla.iszerosized = icmp eq i64 %{{.*}}, 0
	// PATTERN: br i1 %vla.iszerosized, label %vla-init.cont, label %vla-setup.loop
	// PATTERN: vla-setup.loop:
	// PATTERN: %[[SIZE:[0-9]+]] = mul nuw i64 %{{.*}}, 4
	// PATTERN: %vla.begin = bitcast i32* %vla to i8*
	// PATTERN: %vla.end = getelementptr inbounds i8, i8* %vla.begin, i64 %[[SIZE]]
	// PATTERN: br label %vla-init.loop
	// PATTERN: vla-init.loop:
	// PATTERN: %vla.cur = phi i8* [ %vla.begin, %vla-setup.loop ], [ %vla.next, %vla-init.loop ]
	// PATTERN: call void @llvm.memcpy{{.}} %vla.cur, {{.}}@__const.test_vla.vla
	// PATTERN: %vla.next = getelementptr inbounds i8, i8* %vla.cur, i64 4
	// PATTERN: %vla-init.isdone = icmp eq i8* %vla.next, %vla.end
	// PATTERN: br i1 %vla-init.isdone, label %vla-init.cont, label %vla-init.loop
	// PATTERN: vla-init.cont:
	// PATTERN: call void @{{.*}}used
	void test_vla(int size) {
	// Variable-length arrays can't have a zero size according to C11 6.7.6.2/5.
	// Neither can they be negative-sized.
	//
	// We don't use the former fact because some code creates zero-sized VLAs and
	// doesn't use them. clang makes these share locations with other stack
	// values, which leads to initialization of the wrong values.
	//
	// We rely on the later fact because it generates better code.
	//
	// Both cases are caught by UBSan.
	int vla[size];
	int *ptr = vla;
	used(ptr);
	}

	// UNINIT-LABEL: test_alloca(
	// ZERO-LABEL: test_alloca(
	// ZERO: %[[SIZE:[a-z0-9]+]] = sext i32 %{{.*}} to i64
	// ZERO-NEXT: %[[ALLOCA:[a-z0-9]+]] = alloca i8, i64 %[[SIZE]], align [[ALIGN:[0-9]+]]
	// ZERO-NEXT: call void @llvm.memset{{.}}(i8 align [[ALIGN]] %[[ALLOCA]], i8 0, i64 %[[SIZE]], i1 false)
	// PATTERN-LABEL: test_alloca(
	// PATTERN: %[[SIZE:[a-z0-9]+]] = sext i32 %{{.*}} to i64
	// PATTERN-NEXT: %[[ALLOCA:[a-z0-9]+]] = alloca i8, i64 %[[SIZE]], align [[ALIGN:[0-9]+]]
	// PATTERN-NEXT: call void @llvm.memset{{.}}(i8 align [[ALIGN]] %[[ALLOCA]], i8 -86, i64 %[[SIZE]], i1 false)
	void test_alloca(int size) {
	void *ptr = __builtin_alloca(size);
	used(ptr);
	}

	// UNINIT-LABEL: test_alloca_with_align(
	// ZERO-LABEL: test_alloca_with_align(
	// ZERO: %[[SIZE:[a-z0-9]+]] = sext i32 %{{.*}} to i64
	// ZERO-NEXT: %[[ALLOCA:[a-z0-9]+]] = alloca i8, i64 %[[SIZE]], align 128
	// ZERO-NEXT: call void @llvm.memset{{.}}(i8 align 128 %[[ALLOCA]], i8 0, i64 %[[SIZE]], i1 false)
	// PATTERN-LABEL: test_alloca_with_align(
	// PATTERN: %[[SIZE:[a-z0-9]+]] = sext i32 %{{.*}} to i64
	// PATTERN-NEXT: %[[ALLOCA:[a-z0-9]+]] = alloca i8, i64 %[[SIZE]], align 128
	// PATTERN-NEXT: call void @llvm.memset{{.}}(i8 align 128 %[[ALLOCA]], i8 -86, i64 %[[SIZE]], i1 false)
	void test_alloca_with_align(int size) {
	void *ptr = __builtin_alloca_with_align(size, 1024);
	used(ptr);
	}

	// UNINIT-LABEL: test_struct_vla(
	// ZERO-LABEL: test_struct_vla(
	// ZERO: %[[SIZE:[0-9]+]] = mul nuw i64 %{{.*}}, 16
	// ZERO: call void @llvm.memset{{.}}(i8 align 16 %{{.*}}, i8 0, i64 %[[SIZE]], i1 false)
	// PATTERN-LABEL: test_struct_vla(
	// PATTERN: %vla.iszerosized = icmp eq i64 %{{.*}}, 0
	// PATTERN: br i1 %vla.iszerosized, label %vla-init.cont, label %vla-setup.loop
	// PATTERN: vla-setup.loop:
	// PATTERN: %[[SIZE:[0-9]+]] = mul nuw i64 %{{.*}}, 16
	// PATTERN: %vla.begin = bitcast %struct.anon* %vla to i8*
	// PATTERN: %vla.end = getelementptr inbounds i8, i8* %vla.begin, i64 %[[SIZE]]
	// PATTERN: br label %vla-init.loop
	// PATTERN: vla-init.loop:
	// PATTERN: %vla.cur = phi i8* [ %vla.begin, %vla-setup.loop ], [ %vla.next, %vla-init.loop ]
	// PATTERN: call void @llvm.memcpy{{.}} %vla.cur, {{.}}@__const.test_struct_vla.vla
	// PATTERN: %vla.next = getelementptr inbounds i8, i8* %vla.cur, i64 16
	// PATTERN: %vla-init.isdone = icmp eq i8* %vla.next, %vla.end
	// PATTERN: br i1 %vla-init.isdone, label %vla-init.cont, label %vla-init.loop
	// PATTERN: vla-init.cont:
	// PATTERN: call void @{{.*}}used
	void test_struct_vla(int size) {
	// Same as above, but with a struct that doesn't just memcpy.
	struct {
	float f;
	char c;
	void *ptr;
	} vla[size];
	void ptr = static_cast<void>(vla);
	used(ptr);
	}

	// UNINIT-LABEL: test_zsa(
	// ZERO-LABEL: test_zsa(
	// ZERO: %zsa = alloca [0 x i32], align 4
	// ZERO-NOT: %zsa
	// ZERO: call void @{{.*}}used
	// PATTERN-LABEL: test_zsa(
	// PATTERN: %zsa = alloca [0 x i32], align 4
	// PATTERN-NOT: %zsa
	// PATTERN: call void @{{.*}}used
	void test_zsa(int size) {
	// Technically not valid, but as long as clang accepts them we should do
	// something sensible (i.e. not store to the zero-size array).
	int zsa[0];
	used(zsa);
	}

	// UNINIT-LABEL: test_huge_uninit(
	// ZERO-LABEL: test_huge_uninit(
	// ZERO: call void @llvm.memset{{.*}}, i8 0, i64 65536,
	// PATTERN-LABEL: test_huge_uninit(
	// PATTERN: call void @llvm.memset{{.*}}, i8 -86, i64 65536,
	void test_huge_uninit() {
	// We can't emit this as an inline constant to a store instruction because
	// SDNode hits an internal size limit.
	char big[65536];
	used(big);
	}

	// UNINIT-LABEL: test_huge_small_init(
	// ZERO-LABEL: test_huge_small_init(
	// ZERO: call void @llvm.memset{{.*}}, i8 0, i64 65536,
	// ZERO: store i8 97,
	// ZERO: store i8 98,
	// ZERO: store i8 99,
	// ZERO: store i8 100,
	// PATTERN-LABEL: test_huge_small_init(
	// PATTERN: call void @llvm.memset{{.*}}, i8 0, i64 65536,
	// PATTERN: store i8 97,
	// PATTERN: store i8 98,
	// PATTERN: store i8 99,
	// PATTERN: store i8 100,
	void test_huge_small_init() {
	char big[65536] = { 'a', 'b', 'c', 'd' };
	used(big);
	}

	// UNINIT-LABEL: test_huge_larger_init(
	// ZERO-LABEL: test_huge_larger_init(
	// ZERO: call void @llvm.memcpy{{.}} @__const.test_huge_larger_init.big, {{.}}, i64 65536,
	// PATTERN-LABEL: test_huge_larger_init(
	// PATTERN: call void @llvm.memcpy{{.}} @__const.test_huge_larger_init.big, {{.}}, i64 65536,
	void test_huge_larger_init() {
	char big[65536] = { 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9' };
	used(big);
	}

	} // extern "C"