llvm-project/mlir/lib/Transforms/ViewOpGraph.cpp

343 lines
11 KiB
C++

//===- ViewOpGraph.cpp - View/write op graphviz graphs --------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include <utility>
#include "mlir/Transforms/ViewOpGraph.h"
#include "PassDetail.h"
#include "mlir/IR/Block.h"
#include "mlir/IR/Operation.h"
#include "mlir/Support/IndentedOstream.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/GraphWriter.h"
using namespace mlir;
static const StringRef kLineStyleControlFlow = "dashed";
static const StringRef kLineStyleDataFlow = "solid";
static const StringRef kShapeNode = "ellipse";
static const StringRef kShapeNone = "plain";
/// Return the size limits for eliding large attributes.
static int64_t getLargeAttributeSizeLimit() {
// Use the default from the printer flags if possible.
if (Optional<int64_t> limit = OpPrintingFlags().getLargeElementsAttrLimit())
return *limit;
return 16;
}
/// Return all values printed onto a stream as a string.
static std::string strFromOs(function_ref<void(raw_ostream &)> func) {
std::string buf;
llvm::raw_string_ostream os(buf);
func(os);
return os.str();
}
/// Escape special characters such as '\n' and quotation marks.
static std::string escapeString(std::string str) {
return strFromOs([&](raw_ostream &os) { os.write_escaped(str); });
}
/// Put quotation marks around a given string.
static std::string quoteString(const std::string &str) {
return "\"" + str + "\"";
}
using AttributeMap = llvm::StringMap<std::string>;
namespace {
/// This struct represents a node in the DOT language. Each node has an
/// identifier and an optional identifier for the cluster (subgraph) that
/// contains the node.
/// Note: In the DOT language, edges can be drawn only from nodes to nodes, but
/// not between clusters. However, edges can be clipped to the boundary of a
/// cluster with `lhead` and `ltail` attributes. Therefore, when creating a new
/// cluster, an invisible "anchor" node is created.
struct Node {
public:
Node(int id = 0, Optional<int> clusterId = llvm::None)
: id(id), clusterId(clusterId) {}
int id;
Optional<int> clusterId;
};
/// This pass generates a Graphviz dataflow visualization of an MLIR operation.
/// Note: See https://www.graphviz.org/doc/info/lang.html for more information
/// about the Graphviz DOT language.
class PrintOpPass : public ViewOpGraphBase<PrintOpPass> {
public:
PrintOpPass(raw_ostream &os) : os(os) {}
PrintOpPass(const PrintOpPass &o) : PrintOpPass(o.os.getOStream()) {}
void runOnOperation() override {
emitGraph([&]() {
processOperation(getOperation());
emitAllEdgeStmts();
});
}
/// Create a CFG graph for a region. Used in `Region::viewGraph`.
void emitRegionCFG(Region &region) {
printControlFlowEdges = true;
printDataFlowEdges = false;
emitGraph([&]() { processRegion(region); });
}
private:
/// Emit all edges. This function should be called after all nodes have been
/// emitted.
void emitAllEdgeStmts() {
for (const std::string &edge : edges)
os << edge << ";\n";
edges.clear();
}
/// Emit a cluster (subgraph). The specified builder generates the body of the
/// cluster. Return the anchor node of the cluster.
Node emitClusterStmt(function_ref<void()> builder, std::string label = "") {
int clusterId = ++counter;
os << "subgraph cluster_" << clusterId << " {\n";
os.indent();
// Emit invisible anchor node from/to which arrows can be drawn.
Node anchorNode = emitNodeStmt(" ", kShapeNone);
os << attrStmt("label", quoteString(escapeString(std::move(label))))
<< ";\n";
builder();
os.unindent();
os << "}\n";
return Node(anchorNode.id, clusterId);
}
/// Generate an attribute statement.
std::string attrStmt(const Twine &key, const Twine &value) {
return (key + " = " + value).str();
}
/// Emit an attribute list.
void emitAttrList(raw_ostream &os, const AttributeMap &map) {
os << "[";
interleaveComma(map, os, [&](const auto &it) {
os << this->attrStmt(it.getKey(), it.getValue());
});
os << "]";
}
// Print an MLIR attribute to `os`. Large attributes are truncated.
void emitMlirAttr(raw_ostream &os, Attribute attr) {
// A value used to elide large container attribute.
int64_t largeAttrLimit = getLargeAttributeSizeLimit();
// Always emit splat attributes.
if (attr.isa<SplatElementsAttr>()) {
attr.print(os);
return;
}
// Elide "big" elements attributes.
auto elements = attr.dyn_cast<ElementsAttr>();
if (elements && elements.getNumElements() > largeAttrLimit) {
os << std::string(elements.getType().getRank(), '[') << "..."
<< std::string(elements.getType().getRank(), ']') << " : "
<< elements.getType();
return;
}
auto array = attr.dyn_cast<ArrayAttr>();
if (array && static_cast<int64_t>(array.size()) > largeAttrLimit) {
os << "[...]";
return;
}
// Print all other attributes.
std::string buf;
llvm::raw_string_ostream ss(buf);
attr.print(ss);
os << truncateString(ss.str());
}
/// Append an edge to the list of edges.
/// Note: Edges are written to the output stream via `emitAllEdgeStmts`.
void emitEdgeStmt(Node n1, Node n2, std::string label, StringRef style) {
AttributeMap attrs;
attrs["style"] = style.str();
// Do not label edges that start/end at a cluster boundary. Such edges are
// clipped at the boundary, but labels are not. This can lead to labels
// floating around without any edge next to them.
if (!n1.clusterId && !n2.clusterId)
attrs["label"] = quoteString(escapeString(std::move(label)));
// Use `ltail` and `lhead` to draw edges between clusters.
if (n1.clusterId)
attrs["ltail"] = "cluster_" + std::to_string(*n1.clusterId);
if (n2.clusterId)
attrs["lhead"] = "cluster_" + std::to_string(*n2.clusterId);
edges.push_back(strFromOs([&](raw_ostream &os) {
os << llvm::format("v%i -> v%i ", n1.id, n2.id);
emitAttrList(os, attrs);
}));
}
/// Emit a graph. The specified builder generates the body of the graph.
void emitGraph(function_ref<void()> builder) {
os << "digraph G {\n";
os.indent();
// Edges between clusters are allowed only in compound mode.
os << attrStmt("compound", "true") << ";\n";
builder();
os.unindent();
os << "}\n";
}
/// Emit a node statement.
Node emitNodeStmt(std::string label, StringRef shape = kShapeNode) {
int nodeId = ++counter;
AttributeMap attrs;
attrs["label"] = quoteString(escapeString(std::move(label)));
attrs["shape"] = shape.str();
os << llvm::format("v%i ", nodeId);
emitAttrList(os, attrs);
os << ";\n";
return Node(nodeId);
}
/// Generate a label for an operation.
std::string getLabel(Operation *op) {
return strFromOs([&](raw_ostream &os) {
// Print operation name and type.
os << op->getName();
if (printResultTypes) {
os << " : (";
std::string buf;
llvm::raw_string_ostream ss(buf);
interleaveComma(op->getResultTypes(), ss);
os << truncateString(ss.str()) << ")";
os << ")";
}
// Print attributes.
if (printAttrs) {
os << "\n";
for (const NamedAttribute &attr : op->getAttrs()) {
os << '\n' << attr.getName().getValue() << ": ";
emitMlirAttr(os, attr.getValue());
}
}
});
}
/// Generate a label for a block argument.
std::string getLabel(BlockArgument arg) {
return "arg" + std::to_string(arg.getArgNumber());
}
/// Process a block. Emit a cluster and one node per block argument and
/// operation inside the cluster.
void processBlock(Block &block) {
emitClusterStmt([&]() {
for (BlockArgument &blockArg : block.getArguments())
valueToNode[blockArg] = emitNodeStmt(getLabel(blockArg));
// Emit a node for each operation.
Optional<Node> prevNode;
for (Operation &op : block) {
Node nextNode = processOperation(&op);
if (printControlFlowEdges && prevNode)
emitEdgeStmt(*prevNode, nextNode, /*label=*/"",
kLineStyleControlFlow);
prevNode = nextNode;
}
});
}
/// Process an operation. If the operation has regions, emit a cluster.
/// Otherwise, emit a node.
Node processOperation(Operation *op) {
Node node;
if (op->getNumRegions() > 0) {
// Emit cluster for op with regions.
node = emitClusterStmt(
[&]() {
for (Region &region : op->getRegions())
processRegion(region);
},
getLabel(op));
} else {
node = emitNodeStmt(getLabel(op));
}
// Insert data flow edges originating from each operand.
if (printDataFlowEdges) {
unsigned numOperands = op->getNumOperands();
for (unsigned i = 0; i < numOperands; i++)
emitEdgeStmt(valueToNode[op->getOperand(i)], node,
/*label=*/numOperands == 1 ? "" : std::to_string(i),
kLineStyleDataFlow);
}
for (Value result : op->getResults())
valueToNode[result] = node;
return node;
}
/// Process a region.
void processRegion(Region &region) {
for (Block &block : region.getBlocks())
processBlock(block);
}
/// Truncate long strings.
std::string truncateString(std::string str) {
if (str.length() <= maxLabelLen)
return str;
return str.substr(0, maxLabelLen) + "...";
}
/// Output stream to write DOT file to.
raw_indented_ostream os;
/// A list of edges. For simplicity, should be emitted after all nodes were
/// emitted.
std::vector<std::string> edges;
/// Mapping of SSA values to Graphviz nodes/clusters.
DenseMap<Value, Node> valueToNode;
/// Counter for generating unique node/subgraph identifiers.
int counter = 0;
};
} // namespace
std::unique_ptr<Pass>
mlir::createPrintOpGraphPass(raw_ostream &os) {
return std::make_unique<PrintOpPass>(os);
}
/// Generate a CFG for a region and show it in a window.
static void llvmViewGraph(Region &region, const Twine &name) {
int fd;
std::string filename = llvm::createGraphFilename(name.str(), fd);
{
llvm::raw_fd_ostream os(fd, /*shouldClose=*/true);
if (fd == -1) {
llvm::errs() << "error opening file '" << filename << "' for writing\n";
return;
}
PrintOpPass pass(os);
pass.emitRegionCFG(region);
}
llvm::DisplayGraph(filename, /*wait=*/false, llvm::GraphProgram::DOT);
}
void mlir::Region::viewGraph(const Twine &regionName) {
llvmViewGraph(*this, regionName);
}
void mlir::Region::viewGraph() { viewGraph("region"); }