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guix/gnu/packages/patches/tensorflow-c-api-fix.patch

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From eb61daae91432be0b07bb2f6854887bedfa6fc95 Mon Sep 17 00:00:00 2001
From: Asim Shankar <ashankar@google.com>
Date: Tue, 26 Jun 2018 00:57:33 -0700
Subject: [PATCH] [C API]: Bugfix for TF_AddGradients.
TF_AddGradients could create nodes in the graph with names that conflicted with
other nodes in the graph. This would most clearly happen if TF_AddGradients()
was called twice on the same graph, and could also happen if there were other
nodes in the graph that happened to have "gradients" as a prefix of their name.
Fix that.
The added test in c_api_test.cc would fail in the call to TF_SessionRun() with
Node 'gradients/OnesLike' is not unique
without the changes to c_api.cc and c_api_internal.h
While at it, also fixed a possible name collision bug when using the C++ API
to constructor graphs (using Scope).
Thanks @karllessard for pointing this out.
PiperOrigin-RevId: 202087996
---
tensorflow/c/c_api.cc | 13 ++++-
tensorflow/c/c_api_test.cc | 65 ++++++++++++++++++++++--
tensorflow/c/c_test_util.cc | 7 +++
tensorflow/c/c_test_util.h | 3 ++
tensorflow/cc/framework/scope.cc | 30 ++++++++---
tensorflow/cc/framework/scope_internal.h | 3 +-
tensorflow/cc/framework/scope_test.cc | 10 ++++
7 files changed, 116 insertions(+), 15 deletions(-)
diff --git a/tensorflow/c/c_api.cc b/tensorflow/c/c_api.cc
index 09a03639d6fa3..37c8302e08bc3 100644
--- a/tensorflow/c/c_api.cc
+++ b/tensorflow/c/c_api.cc
@@ -2414,7 +2414,18 @@ void TF_AddGradients(TF_Graph* g, TF_Output* y, int ny, TF_Output* x, int nx,
for (int i = first_new_node_id; i < g->graph.num_node_ids(); ++i) {
Node* n = g->graph.FindNodeId(i);
if (n == nullptr) continue;
- g->name_map[n->name()] = n;
+ // We have a convoluted scheme here: Using the C++ graph construction API
+ // to add potentially many nodes to the graph without running the checks
+ // (such as uniqueness of the names of nodes) we run with other functions
+ // that add a node to the graph (like TF_FinishOperation).
+ if (!g->name_map.insert(std::make_pair(n->name(), n)).second) {
+ status->status = tensorflow::errors::Internal(
+ "BUG: The API allowed construction of a graph with duplicate node "
+ "names (",
+ n->name(),
+ "). This is a bug. Please file an issue at "
+ "https://github.com/tensorflow/tensorflow/issues.");
+ }
}
}
diff --git a/tensorflow/c/c_api_test.cc b/tensorflow/c/c_api_test.cc
index 577f10c5e69ea..bc04b53fbb7fa 100644
--- a/tensorflow/c/c_api_test.cc
+++ b/tensorflow/c/c_api_test.cc
@@ -1160,7 +1160,7 @@ TEST(CAPI, GetOpDef) {
}
void StringVectorToArrays(const std::vector<string>& v,
- std::unique_ptr<const void* []>* ptrs,
+ std::unique_ptr<const void*[]>* ptrs,
std::unique_ptr<size_t[]>* lens) {
ptrs->reset(new const void*[v.size()]);
lens->reset(new size_t[v.size()]);
@@ -1196,7 +1196,7 @@ class CApiColocationTest : public ::testing::Test {
void SetViaStringList(TF_OperationDescription* desc,
const std::vector<string>& list) {
- std::unique_ptr<const void* []> list_ptrs;
+ std::unique_ptr<const void*[]> list_ptrs;
std::unique_ptr<size_t[]> list_lens;
StringVectorToArrays(list, &list_ptrs, &list_lens);
TF_SetAttrStringList(desc, tensorflow::kColocationAttrName, list_ptrs.get(),
@@ -1700,6 +1700,61 @@ TEST_F(CApiGradientsTest, OpWithNoGradientRegistered_NoGradInputs) {
TestGradientsError(false);
}
+void ScalarFloatFromTensor(const TF_Tensor* t, float* f) {
+ ASSERT_TRUE(t != nullptr);
+ ASSERT_EQ(TF_FLOAT, TF_TensorType(t));
+ ASSERT_EQ(0, TF_NumDims(t));
+ ASSERT_EQ(4, TF_TensorByteSize(t));
+ float* p = static_cast<float*>(TF_TensorData(t));
+ *f = *p;
+}
+
+TEST_F(CApiGradientsTest, MultipleCallsToAddGradients) {
+ const float X = 3.0f, Y = 7.0f;
+ TF_Operation* x = Placeholder(graph_, s_, "x", TF_FLOAT);
+ TF_Operation* y = Placeholder(graph_, s_, "y", TF_FLOAT);
+ TF_Operation* xy = Mul(x, y, graph_, s_, "xy");
+ TF_Output dxy_dx, dxy_dy;
+
+ TF_Output outputs[1] = {{xy, 0}};
+ TF_Output inputs[1] = {{x, 0}};
+ TF_AddGradients(graph_, outputs, 1, inputs, 1, nullptr, s_, &dxy_dx);
+ ASSERT_EQ(TF_OK, TF_GetCode(s_)) << TF_Message(s_);
+
+ inputs[0] = {y, 0};
+ TF_AddGradients(graph_, outputs, 1, inputs, 1, nullptr, s_, &dxy_dy);
+ ASSERT_EQ(TF_OK, TF_GetCode(s_)) << TF_Message(s_);
+
+ TF_SessionOptions* opts = TF_NewSessionOptions();
+ TF_Session* sess = TF_NewSession(graph_, opts, s_);
+ TF_DeleteSessionOptions(opts);
+ ASSERT_EQ(TF_OK, TF_GetCode(s_)) << TF_Message(s_);
+
+ TF_Output feeds[] = {{x, 0}, {y, 0}};
+ TF_Tensor* feedValues[] = {FloatTensor(X), FloatTensor(Y)};
+ TF_Output fetches[] = {dxy_dx, dxy_dy};
+ TF_Tensor* fetchValues[] = {nullptr, nullptr};
+
+ TF_SessionRun(sess, nullptr /* run_options */, feeds, feedValues, 2, fetches,
+ fetchValues, 2, nullptr /* target_opers */, 0,
+ nullptr /* run_metadata */, s_);
+ TF_DeleteTensor(feedValues[0]);
+ TF_DeleteTensor(feedValues[1]);
+ ASSERT_EQ(TF_OK, TF_GetCode(s_)) << TF_Message(s_);
+ TF_DeleteSession(sess, s_);
+ ASSERT_EQ(TF_OK, TF_GetCode(s_)) << TF_Message(s_);
+
+ float dxy_dxValue = 0.0f, dxy_dyValue = 0.0f;
+ ScalarFloatFromTensor(fetchValues[0], &dxy_dxValue);
+ EXPECT_EQ(Y, dxy_dxValue);
+
+ ScalarFloatFromTensor(fetchValues[1], &dxy_dyValue);
+ EXPECT_EQ(X, dxy_dyValue);
+
+ TF_DeleteTensor(fetchValues[0]);
+ TF_DeleteTensor(fetchValues[1]);
+}
+
// REGISTER_OP for CApiAttributesTest test cases.
// Registers two ops, each with a single attribute called 'v'.
// The attribute in one op will have a type 'type', the other
@@ -1784,7 +1839,7 @@ TEST_F(CApiAttributesTest, String) {
TEST_F(CApiAttributesTest, StringList) {
std::vector<string> list = {"bugs", "bunny", "duck"};
- std::unique_ptr<const void* []> list_ptrs;
+ std::unique_ptr<const void*[]> list_ptrs;
std::unique_ptr<size_t[]> list_lens;
StringVectorToArrays(list, &list_ptrs, &list_lens);
int list_total_size = 0;
@@ -1800,7 +1855,7 @@ TEST_F(CApiAttributesTest, StringList) {
ASSERT_EQ(TF_OK, TF_GetCode(s_)) << TF_Message(s_);
EXPECT_TF_META("v", list.size(), TF_ATTR_STRING, list_total_size);
- std::unique_ptr<void* []> values(new void*[list.size()]);
+ std::unique_ptr<void*[]> values(new void*[list.size()]);
std::unique_ptr<size_t[]> lens(new size_t[list.size()]);
std::unique_ptr<char[]> storage(new char[list_total_size]);
TF_OperationGetAttrStringList(oper, "v", values.get(), lens.get(),
@@ -2025,7 +2080,7 @@ TEST_F(CApiAttributesTest, TensorShapeProtoList) {
tensorflow::PartialTensorShape(pts2).AsProto(&proto);
proto.SerializeToString(&bytes2);
- std::unique_ptr<const void* []> list_ptrs;
+ std::unique_ptr<const void*[]> list_ptrs;
std::unique_ptr<size_t[]> list_lens;
const std::vector<string> list = {bytes1, bytes2};
StringVectorToArrays(list, &list_ptrs, &list_lens);
diff --git a/tensorflow/c/c_test_util.cc b/tensorflow/c/c_test_util.cc
index f3b28c1708129..24eb6c069b213 100644
--- a/tensorflow/c/c_test_util.cc
+++ b/tensorflow/c/c_test_util.cc
@@ -216,6 +216,13 @@ TF_Operation* Min(TF_Operation* l, TF_Operation* r, TF_Graph* graph,
return MinWithDevice(l, r, graph, /*op_device=*/"", s, name);
}
+TF_Operation* Mul(TF_Operation* l, TF_Operation* r, TF_Graph* graph,
+ TF_Status* s, const char* name) {
+ TF_Operation* op;
+ BinaryOpHelper("Mul", l, r, graph, s, name, &op, "", true);
+ return op;
+}
+
TF_Operation* Add(TF_Output l, TF_Output r, TF_Graph* graph, TF_Status* s,
const char* name) {
TF_OperationDescription* desc = TF_NewOperation(graph, "AddN", name);
diff --git a/tensorflow/c/c_test_util.h b/tensorflow/c/c_test_util.h
index c16aba666ee69..38313d647ca93 100644
--- a/tensorflow/c/c_test_util.h
+++ b/tensorflow/c/c_test_util.h
@@ -80,6 +80,9 @@ TF_Operation* Add(TF_Output l, TF_Output r, TF_Graph* graph, TF_Status* s,
TF_Operation* Min(TF_Operation* l, TF_Operation* r, TF_Graph* graph,
TF_Status* s, const char* name = "min");
+TF_Operation* Mul(TF_Operation* l, TF_Operation* r, TF_Graph* graph,
+ TF_Status* s, const char* name = "mul");
+
// If `op_device` is non-empty, set the created op on that device.
TF_Operation* MinWithDevice(TF_Operation* l, TF_Operation* r, TF_Graph* graph,
const string& op_device, TF_Status* s,
diff --git a/tensorflow/cc/framework/scope.cc b/tensorflow/cc/framework/scope.cc
index 62a889181e787..8c886f31711eb 100644
--- a/tensorflow/cc/framework/scope.cc
+++ b/tensorflow/cc/framework/scope.cc
@@ -37,6 +37,11 @@ Scope& Scope::operator=(const Scope& other) {
return *this;
}
+namespace {
+const char kScopeSeparator[] = "/";
+const char kSuffixSeparator[] = "_";
+} // namespace
+
Scope::Impl::Impl(Graph* graph, Status* status, NameMap* name_map,
ShapeRefiner* refiner, bool disable_shape_inference)
: graph_(graph),
@@ -308,19 +313,23 @@ string Scope::Impl::GetUniqueName(const string& prefix,
return prefix;
}
auto entry = name_map_->find(prefix);
- string unique_name = prefix;
if (entry == name_map_->end()) {
name_map_->insert({prefix, 0});
- } else {
- unique_name = strings::StrCat(unique_name, "_", ++entry->second);
+ return prefix;
}
+ string unique_name;
+ do {
+ unique_name = strings::StrCat(prefix, kSuffixSeparator, ++entry->second);
+ } while (name_map_->find(unique_name) != name_map_->end());
+ name_map_->insert({unique_name, 0});
return unique_name;
}
string Scope::Impl::GetNameForOp(const string& default_name) const {
const string unique_name =
GetUniqueName(default_name, true /* check_single_use */);
- const string sep = name_.empty() || unique_name.empty() ? "" : "/";
+ const string sep =
+ name_.empty() || unique_name.empty() ? "" : kScopeSeparator;
return strings::StrCat(name_, sep, unique_name);
}
@@ -345,7 +354,8 @@ Scope Scope::NewSubScope(const string& child_scope_name) const {
}
const string unique_name =
impl()->GetUniqueName(child_scope_name, false /* check_single_use */);
- const string sep = impl()->name_.empty() || unique_name.empty() ? "" : "/";
+ const string sep =
+ impl()->name_.empty() || unique_name.empty() ? "" : kScopeSeparator;
return Scope(new Impl(*this, Impl::Tags::ScopeName(),
strings::StrCat(impl()->name_, sep, unique_name),
false /* copy_names */));
@@ -412,7 +422,7 @@ CompositeOpScopes Scope::GetCompositeOpScopes(
if (!impl()->single_use_scope()) {
Scope child = NewSubScope(impl()->op_name_.empty() ? composite_op_name
: impl()->op_name_);
- const string child_op_sep = impl()->name_.empty() ? "" : "_";
+ const string child_op_sep = impl()->name_.empty() ? "" : kSuffixSeparator;
const string child_name =
strings::StrCat(impl()->name_, child_op_sep, child.impl()->name_);
return {child,
@@ -435,7 +445,13 @@ class InternalScope {
static Scope NewScope(Graph* graph, Status* status, ShapeRefiner* refiner) {
Scope::Impl::NameMap* name_map = new Scope::Impl::NameMap;
for (const Node* node : graph->nodes()) {
- (*name_map)[node->name()] = 0;
+ const string& name = node->name();
+ (*name_map)[name] = 0;
+ // Add all name prefixes ('/' separated).
+ size_t idx = -1;
+ while ((idx = name.find(kScopeSeparator, idx + 1)) != string::npos) {
+ (*name_map)[name.substr(0, idx)] = 0;
+ }
}
// We provide null destructors for these shared ptrs (except for name_map)
// since the caller owns them and doesn't want the scope to destroy them.
diff --git a/tensorflow/cc/framework/scope_internal.h b/tensorflow/cc/framework/scope_internal.h
index 8efcfed20d0b8..58adaef2e942a 100644
--- a/tensorflow/cc/framework/scope_internal.h
+++ b/tensorflow/cc/framework/scope_internal.h
@@ -34,8 +34,7 @@ class Scope::Impl {
// name that has not been used so far in a scope will get no suffix. Later
// uses of the same name will get suffixes _1, _2, _3, etc. Multiple scopes
// can share the same NameMap. For instance, a new scope created using
- // WithControlDependencies() should would share the same NameMap with the
- // parent.
+ // WithControlDependencies() would share the same NameMap with the parent.
typedef std::unordered_map<string, int> NameMap;
Impl(const std::shared_ptr<Graph>& graph,
diff --git a/tensorflow/cc/framework/scope_test.cc b/tensorflow/cc/framework/scope_test.cc
index 9eca9d3face34..b40b345eb8423 100644
--- a/tensorflow/cc/framework/scope_test.cc
+++ b/tensorflow/cc/framework/scope_test.cc
@@ -26,6 +26,16 @@ TEST(ScopeTest, BasicNames) {
EXPECT_EQ(root.GetUniqueNameForOp("mul"), "mul");
}
+TEST(ScopeTest, OpAndScopeNameCollision) {
+ Scope root = Scope::NewRootScope();
+ EXPECT_EQ(root.GetUniqueNameForOp("foo"), "foo");
+ EXPECT_EQ(root.GetUniqueNameForOp("foo"), "foo_1");
+ EXPECT_EQ(root.GetUniqueNameForOp("foo_1"), "foo_1_1");
+ EXPECT_EQ(root.GetUniqueNameForOp("foo_2"), "foo_2");
+ EXPECT_EQ(root.GetUniqueNameForOp("foo"), "foo_3");
+ EXPECT_EQ(root.GetUniqueNameForOp("foo_2"), "foo_2_1");
+}
+
TEST(ScopeTest, HierarchicalNames) {
Scope root = Scope::NewRootScope();
Scope child = root.NewSubScope("child");