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/*!
* Copyright (c) 2016 by Contributors
* Implementation of API functions related to Higher DSL build.
* \file api_lang.cc
*/
#include <tvm/expr.h>
#include <tvm/ir.h>
#include <tvm/tensor.h>
#include <tvm/operation.h>
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#include <tvm/buffer.h>
#include <tvm/schedule.h>
#include <tvm/api_registry.h>
namespace tvm {
TVM_REGISTER_API(_const)
.set_body([](TVMArgs args, TVMRetValue* ret) {
if (args[0].type_code() == kInt) {
*ret = make_const(args[1], args[0].operator int64_t());
} else if (args[0].type_code() == kFloat) {
*ret = make_const(args[1], args[0].operator double());
} else {
LOG(FATAL) << "only accept int or float";
}
});
TVM_REGISTER_API(_str)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = ir::StringImm::make(args[0]);
});
TVM_REGISTER_API(_Array)
.set_body([](TVMArgs args, TVMRetValue* ret) {
std::vector<std::shared_ptr<Node> > data;
for (int i = 0; i < args.size(); ++i) {
data.push_back(args[i].node_sptr());
}
auto node = std::make_shared<ArrayNode>();
node->data = std::move(data);
*ret = node;
});
TVM_REGISTER_API(_ArrayGetItem)
.set_body([](TVMArgs args, TVMRetValue* ret) {
int64_t i = args[1];
auto& sptr = args[0].node_sptr();
CHECK(sptr->is_type<ArrayNode>());
auto* n = static_cast<const ArrayNode*>(sptr.get());
CHECK_LT(static_cast<size_t>(i), n->data.size())
<< "out of bound of array";
*ret = n->data[static_cast<size_t>(i)];
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});
TVM_REGISTER_API(_ArraySize)
.set_body([](TVMArgs args, TVMRetValue* ret) {
auto& sptr = args[0].node_sptr();
CHECK(sptr->is_type<ArrayNode>());
*ret = static_cast<int64_t>(
static_cast<const ArrayNode*>(sptr.get())->data.size());
});
TVM_REGISTER_API(_Map)
.set_body([](TVMArgs args, TVMRetValue* ret) {
CHECK_EQ(args.size() % 2, 0);
MapNode::ContainerType data;
for (int i = 0; i < args.num_args; i += 2) {
CHECK(args[i].type_code() == kNodeHandle)
<< "need content of array to be NodeBase";
CHECK(args[i + 1].type_code() == kNodeHandle)
<< "need content of array to be NodeBase";
data.emplace(std::make_pair(args[i].node_sptr(),
args[i + 1].node_sptr()));
}
auto node = std::make_shared<MapNode>();
node->data = std::move(data);
*ret = node;
});
TVM_REGISTER_API(_MapSize)
.set_body([](TVMArgs args, TVMRetValue* ret) {
auto& sptr = args[0].node_sptr();
CHECK(sptr->is_type<MapNode>());
auto* n = static_cast<const MapNode*>(sptr.get());
*ret = static_cast<int64_t>(n->data.size());
});
TVM_REGISTER_API(_MapGetItem)
.set_body([](TVMArgs args, TVMRetValue* ret) {
CHECK(args[0].type_code() == kNodeHandle);
CHECK(args[1].type_code() == kNodeHandle);
auto& sptr = args[0].node_sptr();
CHECK(sptr->is_type<MapNode>());
auto* n = static_cast<const MapNode*>(sptr.get());
auto it = n->data.find(args[1].node_sptr());
CHECK(it != n->data.end())
<< "cannot find the corresponding key in the Map";
*ret = (*it).second;
});
TVM_REGISTER_API(_MapCount)
.set_body([](TVMArgs args, TVMRetValue* ret) {
CHECK(args[0].type_code() == kNodeHandle);
CHECK(args[1].type_code() == kNodeHandle);
auto& sptr = args[0].node_sptr();
CHECK(sptr->is_type<MapNode>());
auto* n = static_cast<const MapNode*>(sptr.get());
*ret = static_cast<int64_t>(
n->data.count(args[1].node_sptr()));
});
TVM_REGISTER_API(_MapItems)
.set_body([](TVMArgs args, TVMRetValue* ret) {
auto& sptr = args[0].node_sptr();
CHECK(sptr->is_type<MapNode>());
auto* n = static_cast<const MapNode*>(sptr.get());
auto rkvs = std::make_shared<ArrayNode>();
for (const auto& kv : n->data) {
rkvs->data.push_back(kv.first);
rkvs->data.push_back(kv.second);
}
*ret = rkvs;
});
TVM_REGISTER_API(Range)
.set_body([](TVMArgs args, TVMRetValue* ret) {
if (args.size() == 1) {
*ret = Range(0, args[0]);
} else {
*ret = Range(args[0], args[1]);
}
});
TVM_REGISTER_API(_Buffer)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = BufferNode::make(args[0],
args[1],
args[2],
args[3],
args[4]);
});
TVM_REGISTER_API(_Tensor)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = TensorNode::make(args[0],
args[1],
args[2],
args[3]);
});
TVM_REGISTER_API(_TensorEqual)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = args[0].operator Tensor() == args[1].operator Tensor();
});
TVM_REGISTER_API(_TensorHash)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = static_cast<int64_t>(
std::hash<Tensor>()(args[0].operator Tensor()));
});
TVM_REGISTER_API(_Placeholder)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = placeholder(args[0],
args[1],
args[2]);
});
TVM_REGISTER_API(_ComputeOp)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = ComputeOpNode::make(args[0],
args[1],
args[2]);
});
TVM_REGISTER_API(_ScanOp)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = ScanOpNode::make(args[0],
args[1],
args[2],
args[3],
args[4]);
});
TVM_REGISTER_API(_OpGetOutput)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = args[0].operator Operation().output(
static_cast<size_t>(args[1].operator int64_t()));
});
TVM_REGISTER_API(_IterVar)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = IterVarNode::make(
args[0], args[1],
static_cast<IterVarType>(args[2].operator int()),
args[3]);
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});
TVM_REGISTER_API(_Schedule)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = Schedule(args[0].operator Array<Operation>());
});
TVM_REGISTER_API(_StageSetScope)
.set_body([](TVMArgs args, TVMRetValue* ret) {
args[0].operator Stage()
.set_scope(args[1]);
});
TVM_REGISTER_API(_StageSplitByFactor)
.set_body([](TVMArgs args, TVMRetValue* ret) {
IterVar outer, inner;
args[0].operator Stage()
.split(args[1], &outer, &inner, args[2]);
*ret = Array<IterVar>({outer, inner});
});
TVM_REGISTER_API(_StageSplitByOuter)
.set_body([](TVMArgs args, TVMRetValue* ret) {
IterVar inner;
args[0].operator Stage()
.split(args[1], args[2], &inner, args[3]);
*ret = inner;
});
TVM_REGISTER_API(_StageFuse)
.set_body([](TVMArgs args, TVMRetValue* ret) {
IterVar fused;
args[0].operator Stage()
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*ret = fused;
});
TVM_REGISTER_API(_StageComputeAt)
.set_body([](TVMArgs args, TVMRetValue* ret) {
args[0].operator Stage()
.compute_at(args[1], args[2]);
});
TVM_REGISTER_API(_StageComputeInline)
.set_body([](TVMArgs args, TVMRetValue* ret) {
args[0].operator Stage()
.compute_inline();
});
TVM_REGISTER_API(_StageComputeRoot)
.set_body([](TVMArgs args, TVMRetValue* ret) {
args[0].operator Stage()
.compute_root();
});
TVM_REGISTER_API(_StageReorder)
.set_body([](TVMArgs args, TVMRetValue* ret) {
args[0].operator Stage()
.reorder(args[1]);
});
TVM_REGISTER_API(_StageTile)
.set_body([](TVMArgs args, TVMRetValue* ret) {
IterVar x_outer, y_outer, x_inner, y_inner;
args[0].operator Stage()
.tile(args[1], args[2], &x_outer, &y_outer,
&x_inner, &y_inner, args[3], args[4]);
*ret = Array<IterVar>({x_outer, y_outer, x_inner, y_inner});
});
TVM_REGISTER_API(_StageOutermostThreads)
.set_body([](TVMArgs args, TVMRetValue* ret) {
args[0].operator Stage()
.outermost_threads(args[1]);
});
TVM_REGISTER_API(_StageUnroll)
.set_body([](TVMArgs args, TVMRetValue* ret) {
args[0].operator Stage()
.unroll(args[1]);
});
TVM_REGISTER_API(_StageVectorize)
.set_body([](TVMArgs args, TVMRetValue* ret) {
args[0].operator Stage()
.vectorize(args[1]);
});
TVM_REGISTER_API(_StageParallel)
.set_body([](TVMArgs args, TVMRetValue* ret) {
args[0].operator Stage()
.parallel(args[1]);
});
TVM_REGISTER_API(_ScheduleNormalize)
.set_body([](TVMArgs args, TVMRetValue* ret) {
args[0].operator Schedule()
.normalize();
});
TVM_REGISTER_API(_ScheduleCacheRead)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = args[0].operator Schedule()
.cache_read(args[1], args[2], args[3]);
});
TVM_REGISTER_API(_ScheduleCacheWrite)
.set_body([](TVMArgs args, TVMRetValue* ret) {
*ret = args[0].operator Schedule()
.cache_write(args[1], args[2]);
});
} // namespace tvm