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|
//===- DimLvlMapParser.cpp - `DimLvlMap` parser implementation ------------===//
//
// 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 "DimLvlMapParser.h"
using namespace mlir;
using namespace mlir::sparse_tensor;
using namespace mlir::sparse_tensor::ir_detail;
#define FAILURE_IF_FAILED(RES) \
if (failed(RES)) { \
return failure(); \
}
/// Helper function for `FAILURE_IF_NULLOPT_OR_FAILED` to avoid duplicating
/// its `RES` parameter.
static inline bool didntSucceed(OptionalParseResult res) {
return !res.has_value() || failed(*res);
}
#define FAILURE_IF_NULLOPT_OR_FAILED(RES) \
if (didntSucceed(RES)) { \
return failure(); \
}
// NOTE: this macro assumes `AsmParser parser` and `SMLoc loc` are in scope.
#define ERROR_IF(COND, MSG) \
if (COND) { \
return parser.emitError(loc, MSG); \
}
//===----------------------------------------------------------------------===//
// `DimLvlMapParser` implementation for variable parsing.
//===----------------------------------------------------------------------===//
// Our variation on `AffineParser::{parseBareIdExpr,parseIdentifierDefinition}`
OptionalParseResult DimLvlMapParser::parseVar(VarKind vk, bool isOptional,
Policy creationPolicy,
VarInfo::ID &varID,
bool &didCreate) {
// Save the current location so that we can have error messages point to
// the right place.
const auto loc = parser.getCurrentLocation();
StringRef name;
if (failed(parser.parseOptionalKeyword(&name))) {
ERROR_IF(!isOptional, "expected bare identifier")
return std::nullopt;
}
if (const auto res = env.lookupOrCreate(creationPolicy, name, loc, vk)) {
varID = res->first;
didCreate = res->second;
return success();
}
switch (creationPolicy) {
case Policy::MustNot:
return parser.emitError(loc, "use of undeclared identifier '" + name + "'");
case Policy::May:
llvm_unreachable("got nullopt for Policy::May");
case Policy::Must:
return parser.emitError(loc, "redefinition of identifier '" + name + "'");
}
llvm_unreachable("unknown Policy");
}
FailureOr<VarInfo::ID> DimLvlMapParser::parseVarUsage(VarKind vk,
bool requireKnown) {
VarInfo::ID id;
bool didCreate;
const bool isOptional = false;
const auto creationPolicy = requireKnown ? Policy::MustNot : Policy::May;
const auto res = parseVar(vk, isOptional, creationPolicy, id, didCreate);
FAILURE_IF_NULLOPT_OR_FAILED(res)
assert(requireKnown ? !didCreate : true);
return id;
}
FailureOr<VarInfo::ID> DimLvlMapParser::parseVarBinding(VarKind vk,
bool requireKnown) {
const auto loc = parser.getCurrentLocation();
VarInfo::ID id;
bool didCreate;
const bool isOptional = false;
const auto creationPolicy = requireKnown ? Policy::MustNot : Policy::Must;
const auto res = parseVar(vk, isOptional, creationPolicy, id, didCreate);
FAILURE_IF_NULLOPT_OR_FAILED(res)
assert(requireKnown ? !didCreate : didCreate);
bindVar(loc, id);
return id;
}
FailureOr<std::pair<Var, bool>>
DimLvlMapParser::parseOptionalVarBinding(VarKind vk, bool requireKnown) {
const auto loc = parser.getCurrentLocation();
VarInfo::ID id;
bool didCreate;
const bool isOptional = true;
const auto creationPolicy = requireKnown ? Policy::MustNot : Policy::Must;
const auto res = parseVar(vk, isOptional, creationPolicy, id, didCreate);
if (res.has_value()) {
FAILURE_IF_FAILED(*res)
assert(didCreate);
return std::make_pair(bindVar(loc, id), true);
}
assert(!didCreate);
return std::make_pair(env.bindUnusedVar(vk), false);
}
Var DimLvlMapParser::bindVar(llvm::SMLoc loc, VarInfo::ID id) {
MLIRContext *context = parser.getContext();
const auto var = env.bindVar(id);
const auto &info = std::as_const(env).access(id);
const auto name = info.getName();
const auto num = *info.getNum();
switch (info.getKind()) {
case VarKind::Symbol: {
const auto affine = getAffineSymbolExpr(num, context);
dimsAndSymbols.emplace_back(name, affine);
lvlsAndSymbols.emplace_back(name, affine);
return var;
}
case VarKind::Dimension:
dimsAndSymbols.emplace_back(name, getAffineDimExpr(num, context));
return var;
case VarKind::Level:
lvlsAndSymbols.emplace_back(name, getAffineDimExpr(num, context));
return var;
}
llvm_unreachable("unknown VarKind");
}
//===----------------------------------------------------------------------===//
// `DimLvlMapParser` implementation for `DimLvlMap` per se.
//===----------------------------------------------------------------------===//
FailureOr<DimLvlMap> DimLvlMapParser::parseDimLvlMap() {
FAILURE_IF_FAILED(parseSymbolBindingList())
FAILURE_IF_FAILED(parseLvlVarBindingList())
FAILURE_IF_FAILED(parseDimSpecList())
FAILURE_IF_FAILED(parser.parseArrow())
FAILURE_IF_FAILED(parseLvlSpecList())
InFlightDiagnostic ifd = env.emitErrorIfAnyUnbound(parser);
if (failed(ifd))
return ifd;
return DimLvlMap(env.getRanks().getSymRank(), dimSpecs, lvlSpecs);
}
ParseResult DimLvlMapParser::parseSymbolBindingList() {
return parser.parseCommaSeparatedList(
OpAsmParser::Delimiter::OptionalSquare,
[this]() { return ParseResult(parseVarBinding(VarKind::Symbol)); },
" in symbol binding list");
}
ParseResult DimLvlMapParser::parseLvlVarBindingList() {
return parser.parseCommaSeparatedList(
OpAsmParser::Delimiter::OptionalBraces,
[this]() { return ParseResult(parseVarBinding(VarKind::Level)); },
" in level declaration list");
}
//===----------------------------------------------------------------------===//
// `DimLvlMapParser` implementation for `DimSpec`.
//===----------------------------------------------------------------------===//
ParseResult DimLvlMapParser::parseDimSpecList() {
return parser.parseCommaSeparatedList(
OpAsmParser::Delimiter::Paren,
[this]() -> ParseResult { return parseDimSpec(); },
" in dimension-specifier list");
}
ParseResult DimLvlMapParser::parseDimSpec() {
// Parse the requisite dim-var binding.
const auto varID = parseVarBinding(VarKind::Dimension);
FAILURE_IF_FAILED(varID)
const DimVar var = env.getVar(*varID).cast<DimVar>();
// Parse an optional dimension expression.
AffineExpr affine;
if (succeeded(parser.parseOptionalEqual())) {
// Parse the dim affine expr, with only any lvl-vars in scope.
FAILURE_IF_FAILED(parser.parseAffineExpr(lvlsAndSymbols, affine))
}
DimExpr expr{affine};
// Parse an optional slice.
SparseTensorDimSliceAttr slice;
if (succeeded(parser.parseOptionalColon())) {
const auto loc = parser.getCurrentLocation();
Attribute attr;
FAILURE_IF_FAILED(parser.parseAttribute(attr))
slice = llvm::dyn_cast<SparseTensorDimSliceAttr>(attr);
ERROR_IF(!slice, "expected SparseTensorDimSliceAttr")
}
dimSpecs.emplace_back(var, expr, slice);
return success();
}
//===----------------------------------------------------------------------===//
// `DimLvlMapParser` implementation for `LvlSpec`.
//===----------------------------------------------------------------------===//
ParseResult DimLvlMapParser::parseLvlSpecList() {
// This method currently only supports two syntaxes:
//
// (1) There are no forward-declarations, and no lvl-var bindings:
// (d0, d1) -> (d0 : dense, d1 : compressed)
// Therefore `parseLvlVarBindingList` didn't bind any lvl-vars, and thus
// `parseLvlSpec` will need to use `VarEnv::bindUnusedVar` to ensure that
// the level-rank is correct at the end of parsing.
//
// (2) There are forward-declarations, and every lvl-spec must have
// a lvl-var binding:
// {l0, l1} (d0 = l0, d1 = l1) -> (l0 = d0 : dense, l1 = d1 : compressed)
// However, this introduces duplicate information since the order of
// the lvl-vars in `parseLvlVarBindingList` must agree with their order
// in the list of lvl-specs. Therefore, `parseLvlSpec` will not call
// `VarEnv::bindVar` (since `parseLvlVarBindingList` already did so),
// and must also validate the consistency between the two lvl-var orders.
const auto declaredLvlRank = env.getRanks().getLvlRank();
const bool requireLvlVarBinding = declaredLvlRank != 0;
// Have `ERROR_IF` point to the start of the list.
const auto loc = parser.getCurrentLocation();
const auto res = parser.parseCommaSeparatedList(
mlir::OpAsmParser::Delimiter::Paren,
[=]() -> ParseResult { return parseLvlSpec(requireLvlVarBinding); },
" in level-specifier list");
FAILURE_IF_FAILED(res)
const auto specLvlRank = lvlSpecs.size();
ERROR_IF(requireLvlVarBinding && specLvlRank != declaredLvlRank,
"Level-rank mismatch between forward-declarations and specifiers. "
"Declared " +
Twine(declaredLvlRank) + " level-variables; but got " +
Twine(specLvlRank) + " level-specifiers.")
return success();
}
static inline Twine nth(Var::Num n) {
switch (n) {
case 1:
return "1st";
case 2:
return "2nd";
default:
return Twine(n) + "th";
}
}
FailureOr<LvlVar>
DimLvlMapParser::parseLvlVarBinding(bool requireLvlVarBinding) {
// Nothing to parse, just bind an unnamed variable.
if (!requireLvlVarBinding)
return env.bindUnusedVar(VarKind::Level).cast<LvlVar>();
const auto loc = parser.getCurrentLocation();
// NOTE: Calling `parseVarUsage` here is semantically inappropriate,
// since the thing we're parsing is supposed to be a variable *binding*
// rather than a variable *use*. However, the call to `VarEnv::bindVar`
// (and its corresponding call to `DimLvlMapParser::recordVarBinding`)
// already occured in `parseLvlVarBindingList`, and therefore we must
// use `parseVarUsage` here in order to operationally do the right thing.
const auto varID = parseVarUsage(VarKind::Level, /*requireKnown=*/true);
FAILURE_IF_FAILED(varID)
const auto &info = std::as_const(env).access(*varID);
const auto var = info.getVar().cast<LvlVar>();
const auto forwardNum = var.getNum();
const auto specNum = lvlSpecs.size();
ERROR_IF(forwardNum != specNum,
"Level-variable ordering mismatch. The variable '" + info.getName() +
"' was forward-declared as the " + nth(forwardNum) +
" level; but is bound by the " + nth(specNum) +
" specification.")
FAILURE_IF_FAILED(parser.parseEqual())
return var;
}
ParseResult DimLvlMapParser::parseLvlSpec(bool requireLvlVarBinding) {
// Parse the optional lvl-var binding. `requireLvlVarBinding`
// specifies whether that "optional" is actually Must or MustNot.
const auto varRes = parseLvlVarBinding(requireLvlVarBinding);
FAILURE_IF_FAILED(varRes)
const LvlVar var = *varRes;
// Parse the lvl affine expr, with only the dim-vars in scope.
AffineExpr affine;
FAILURE_IF_FAILED(parser.parseAffineExpr(dimsAndSymbols, affine))
LvlExpr expr{affine};
FAILURE_IF_FAILED(parser.parseColon())
const auto type = lvlTypeParser.parseLvlType(parser);
FAILURE_IF_FAILED(type)
lvlSpecs.emplace_back(var, expr, static_cast<LevelType>(*type));
return success();
}
//===----------------------------------------------------------------------===//
|
