1*34a35a8bSMartin Erhart //===- FunctionImplementation.cpp - Utilities for function-like ops -------===//
2*34a35a8bSMartin Erhart //
3*34a35a8bSMartin Erhart // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4*34a35a8bSMartin Erhart // See https://llvm.org/LICENSE.txt for license information.
5*34a35a8bSMartin Erhart // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6*34a35a8bSMartin Erhart //
7*34a35a8bSMartin Erhart //===----------------------------------------------------------------------===//
8*34a35a8bSMartin Erhart
9*34a35a8bSMartin Erhart #include "mlir/Interfaces/FunctionImplementation.h"
10*34a35a8bSMartin Erhart #include "mlir/IR/Builders.h"
11*34a35a8bSMartin Erhart #include "mlir/IR/SymbolTable.h"
12*34a35a8bSMartin Erhart #include "mlir/Interfaces/FunctionInterfaces.h"
13*34a35a8bSMartin Erhart
14*34a35a8bSMartin Erhart using namespace mlir;
15*34a35a8bSMartin Erhart
16*34a35a8bSMartin Erhart static ParseResult
parseFunctionArgumentList(OpAsmParser & parser,bool allowVariadic,SmallVectorImpl<OpAsmParser::Argument> & arguments,bool & isVariadic)17*34a35a8bSMartin Erhart parseFunctionArgumentList(OpAsmParser &parser, bool allowVariadic,
18*34a35a8bSMartin Erhart SmallVectorImpl<OpAsmParser::Argument> &arguments,
19*34a35a8bSMartin Erhart bool &isVariadic) {
20*34a35a8bSMartin Erhart
21*34a35a8bSMartin Erhart // Parse the function arguments. The argument list either has to consistently
22*34a35a8bSMartin Erhart // have ssa-id's followed by types, or just be a type list. It isn't ok to
23*34a35a8bSMartin Erhart // sometimes have SSA ID's and sometimes not.
24*34a35a8bSMartin Erhart isVariadic = false;
25*34a35a8bSMartin Erhart
26*34a35a8bSMartin Erhart return parser.parseCommaSeparatedList(
27*34a35a8bSMartin Erhart OpAsmParser::Delimiter::Paren, [&]() -> ParseResult {
28*34a35a8bSMartin Erhart // Ellipsis must be at end of the list.
29*34a35a8bSMartin Erhart if (isVariadic)
30*34a35a8bSMartin Erhart return parser.emitError(
31*34a35a8bSMartin Erhart parser.getCurrentLocation(),
32*34a35a8bSMartin Erhart "variadic arguments must be in the end of the argument list");
33*34a35a8bSMartin Erhart
34*34a35a8bSMartin Erhart // Handle ellipsis as a special case.
35*34a35a8bSMartin Erhart if (allowVariadic && succeeded(parser.parseOptionalEllipsis())) {
36*34a35a8bSMartin Erhart // This is a variadic designator.
37*34a35a8bSMartin Erhart isVariadic = true;
38*34a35a8bSMartin Erhart return success(); // Stop parsing arguments.
39*34a35a8bSMartin Erhart }
40*34a35a8bSMartin Erhart // Parse argument name if present.
41*34a35a8bSMartin Erhart OpAsmParser::Argument argument;
42*34a35a8bSMartin Erhart auto argPresent = parser.parseOptionalArgument(
43*34a35a8bSMartin Erhart argument, /*allowType=*/true, /*allowAttrs=*/true);
44*34a35a8bSMartin Erhart if (argPresent.has_value()) {
45*34a35a8bSMartin Erhart if (failed(argPresent.value()))
46*34a35a8bSMartin Erhart return failure(); // Present but malformed.
47*34a35a8bSMartin Erhart
48*34a35a8bSMartin Erhart // Reject this if the preceding argument was missing a name.
49*34a35a8bSMartin Erhart if (!arguments.empty() && arguments.back().ssaName.name.empty())
50*34a35a8bSMartin Erhart return parser.emitError(argument.ssaName.location,
51*34a35a8bSMartin Erhart "expected type instead of SSA identifier");
52*34a35a8bSMartin Erhart
53*34a35a8bSMartin Erhart } else {
54*34a35a8bSMartin Erhart argument.ssaName.location = parser.getCurrentLocation();
55*34a35a8bSMartin Erhart // Otherwise we just have a type list without SSA names. Reject
56*34a35a8bSMartin Erhart // this if the preceding argument had a name.
57*34a35a8bSMartin Erhart if (!arguments.empty() && !arguments.back().ssaName.name.empty())
58*34a35a8bSMartin Erhart return parser.emitError(argument.ssaName.location,
59*34a35a8bSMartin Erhart "expected SSA identifier");
60*34a35a8bSMartin Erhart
61*34a35a8bSMartin Erhart NamedAttrList attrs;
62*34a35a8bSMartin Erhart if (parser.parseType(argument.type) ||
63*34a35a8bSMartin Erhart parser.parseOptionalAttrDict(attrs) ||
64*34a35a8bSMartin Erhart parser.parseOptionalLocationSpecifier(argument.sourceLoc))
65*34a35a8bSMartin Erhart return failure();
66*34a35a8bSMartin Erhart argument.attrs = attrs.getDictionary(parser.getContext());
67*34a35a8bSMartin Erhart }
68*34a35a8bSMartin Erhart arguments.push_back(argument);
69*34a35a8bSMartin Erhart return success();
70*34a35a8bSMartin Erhart });
71*34a35a8bSMartin Erhart }
72*34a35a8bSMartin Erhart
73*34a35a8bSMartin Erhart /// Parse a function result list.
74*34a35a8bSMartin Erhart ///
75*34a35a8bSMartin Erhart /// function-result-list ::= function-result-list-parens
76*34a35a8bSMartin Erhart /// | non-function-type
77*34a35a8bSMartin Erhart /// function-result-list-parens ::= `(` `)`
78*34a35a8bSMartin Erhart /// | `(` function-result-list-no-parens `)`
79*34a35a8bSMartin Erhart /// function-result-list-no-parens ::= function-result (`,` function-result)*
80*34a35a8bSMartin Erhart /// function-result ::= type attribute-dict?
81*34a35a8bSMartin Erhart ///
82*34a35a8bSMartin Erhart static ParseResult
parseFunctionResultList(OpAsmParser & parser,SmallVectorImpl<Type> & resultTypes,SmallVectorImpl<DictionaryAttr> & resultAttrs)83*34a35a8bSMartin Erhart parseFunctionResultList(OpAsmParser &parser, SmallVectorImpl<Type> &resultTypes,
84*34a35a8bSMartin Erhart SmallVectorImpl<DictionaryAttr> &resultAttrs) {
85*34a35a8bSMartin Erhart if (failed(parser.parseOptionalLParen())) {
86*34a35a8bSMartin Erhart // We already know that there is no `(`, so parse a type.
87*34a35a8bSMartin Erhart // Because there is no `(`, it cannot be a function type.
88*34a35a8bSMartin Erhart Type ty;
89*34a35a8bSMartin Erhart if (parser.parseType(ty))
90*34a35a8bSMartin Erhart return failure();
91*34a35a8bSMartin Erhart resultTypes.push_back(ty);
92*34a35a8bSMartin Erhart resultAttrs.emplace_back();
93*34a35a8bSMartin Erhart return success();
94*34a35a8bSMartin Erhart }
95*34a35a8bSMartin Erhart
96*34a35a8bSMartin Erhart // Special case for an empty set of parens.
97*34a35a8bSMartin Erhart if (succeeded(parser.parseOptionalRParen()))
98*34a35a8bSMartin Erhart return success();
99*34a35a8bSMartin Erhart
100*34a35a8bSMartin Erhart // Parse individual function results.
101*34a35a8bSMartin Erhart if (parser.parseCommaSeparatedList([&]() -> ParseResult {
102*34a35a8bSMartin Erhart resultTypes.emplace_back();
103*34a35a8bSMartin Erhart resultAttrs.emplace_back();
104*34a35a8bSMartin Erhart NamedAttrList attrs;
105*34a35a8bSMartin Erhart if (parser.parseType(resultTypes.back()) ||
106*34a35a8bSMartin Erhart parser.parseOptionalAttrDict(attrs))
107*34a35a8bSMartin Erhart return failure();
108*34a35a8bSMartin Erhart resultAttrs.back() = attrs.getDictionary(parser.getContext());
109*34a35a8bSMartin Erhart return success();
110*34a35a8bSMartin Erhart }))
111*34a35a8bSMartin Erhart return failure();
112*34a35a8bSMartin Erhart
113*34a35a8bSMartin Erhart return parser.parseRParen();
114*34a35a8bSMartin Erhart }
115*34a35a8bSMartin Erhart
parseFunctionSignature(OpAsmParser & parser,bool allowVariadic,SmallVectorImpl<OpAsmParser::Argument> & arguments,bool & isVariadic,SmallVectorImpl<Type> & resultTypes,SmallVectorImpl<DictionaryAttr> & resultAttrs)116*34a35a8bSMartin Erhart ParseResult function_interface_impl::parseFunctionSignature(
117*34a35a8bSMartin Erhart OpAsmParser &parser, bool allowVariadic,
118*34a35a8bSMartin Erhart SmallVectorImpl<OpAsmParser::Argument> &arguments, bool &isVariadic,
119*34a35a8bSMartin Erhart SmallVectorImpl<Type> &resultTypes,
120*34a35a8bSMartin Erhart SmallVectorImpl<DictionaryAttr> &resultAttrs) {
121*34a35a8bSMartin Erhart if (parseFunctionArgumentList(parser, allowVariadic, arguments, isVariadic))
122*34a35a8bSMartin Erhart return failure();
123*34a35a8bSMartin Erhart if (succeeded(parser.parseOptionalArrow()))
124*34a35a8bSMartin Erhart return parseFunctionResultList(parser, resultTypes, resultAttrs);
125*34a35a8bSMartin Erhart return success();
126*34a35a8bSMartin Erhart }
127*34a35a8bSMartin Erhart
addArgAndResultAttrs(Builder & builder,OperationState & result,ArrayRef<DictionaryAttr> argAttrs,ArrayRef<DictionaryAttr> resultAttrs,StringAttr argAttrsName,StringAttr resAttrsName)128*34a35a8bSMartin Erhart void function_interface_impl::addArgAndResultAttrs(
129*34a35a8bSMartin Erhart Builder &builder, OperationState &result, ArrayRef<DictionaryAttr> argAttrs,
130*34a35a8bSMartin Erhart ArrayRef<DictionaryAttr> resultAttrs, StringAttr argAttrsName,
131*34a35a8bSMartin Erhart StringAttr resAttrsName) {
132*34a35a8bSMartin Erhart auto nonEmptyAttrsFn = [](DictionaryAttr attrs) {
133*34a35a8bSMartin Erhart return attrs && !attrs.empty();
134*34a35a8bSMartin Erhart };
135*34a35a8bSMartin Erhart // Convert the specified array of dictionary attrs (which may have null
136*34a35a8bSMartin Erhart // entries) to an ArrayAttr of dictionaries.
137*34a35a8bSMartin Erhart auto getArrayAttr = [&](ArrayRef<DictionaryAttr> dictAttrs) {
138*34a35a8bSMartin Erhart SmallVector<Attribute> attrs;
139*34a35a8bSMartin Erhart for (auto &dict : dictAttrs)
140*34a35a8bSMartin Erhart attrs.push_back(dict ? dict : builder.getDictionaryAttr({}));
141*34a35a8bSMartin Erhart return builder.getArrayAttr(attrs);
142*34a35a8bSMartin Erhart };
143*34a35a8bSMartin Erhart
144*34a35a8bSMartin Erhart // Add the attributes to the function arguments.
145*34a35a8bSMartin Erhart if (llvm::any_of(argAttrs, nonEmptyAttrsFn))
146*34a35a8bSMartin Erhart result.addAttribute(argAttrsName, getArrayAttr(argAttrs));
147*34a35a8bSMartin Erhart
148*34a35a8bSMartin Erhart // Add the attributes to the function results.
149*34a35a8bSMartin Erhart if (llvm::any_of(resultAttrs, nonEmptyAttrsFn))
150*34a35a8bSMartin Erhart result.addAttribute(resAttrsName, getArrayAttr(resultAttrs));
151*34a35a8bSMartin Erhart }
152*34a35a8bSMartin Erhart
addArgAndResultAttrs(Builder & builder,OperationState & result,ArrayRef<OpAsmParser::Argument> args,ArrayRef<DictionaryAttr> resultAttrs,StringAttr argAttrsName,StringAttr resAttrsName)153*34a35a8bSMartin Erhart void function_interface_impl::addArgAndResultAttrs(
154*34a35a8bSMartin Erhart Builder &builder, OperationState &result,
155*34a35a8bSMartin Erhart ArrayRef<OpAsmParser::Argument> args, ArrayRef<DictionaryAttr> resultAttrs,
156*34a35a8bSMartin Erhart StringAttr argAttrsName, StringAttr resAttrsName) {
157*34a35a8bSMartin Erhart SmallVector<DictionaryAttr> argAttrs;
158*34a35a8bSMartin Erhart for (const auto &arg : args)
159*34a35a8bSMartin Erhart argAttrs.push_back(arg.attrs);
160*34a35a8bSMartin Erhart addArgAndResultAttrs(builder, result, argAttrs, resultAttrs, argAttrsName,
161*34a35a8bSMartin Erhart resAttrsName);
162*34a35a8bSMartin Erhart }
163*34a35a8bSMartin Erhart
parseFunctionOp(OpAsmParser & parser,OperationState & result,bool allowVariadic,StringAttr typeAttrName,FuncTypeBuilder funcTypeBuilder,StringAttr argAttrsName,StringAttr resAttrsName)164*34a35a8bSMartin Erhart ParseResult function_interface_impl::parseFunctionOp(
165*34a35a8bSMartin Erhart OpAsmParser &parser, OperationState &result, bool allowVariadic,
166*34a35a8bSMartin Erhart StringAttr typeAttrName, FuncTypeBuilder funcTypeBuilder,
167*34a35a8bSMartin Erhart StringAttr argAttrsName, StringAttr resAttrsName) {
168*34a35a8bSMartin Erhart SmallVector<OpAsmParser::Argument> entryArgs;
169*34a35a8bSMartin Erhart SmallVector<DictionaryAttr> resultAttrs;
170*34a35a8bSMartin Erhart SmallVector<Type> resultTypes;
171*34a35a8bSMartin Erhart auto &builder = parser.getBuilder();
172*34a35a8bSMartin Erhart
173*34a35a8bSMartin Erhart // Parse visibility.
174*34a35a8bSMartin Erhart (void)impl::parseOptionalVisibilityKeyword(parser, result.attributes);
175*34a35a8bSMartin Erhart
176*34a35a8bSMartin Erhart // Parse the name as a symbol.
177*34a35a8bSMartin Erhart StringAttr nameAttr;
178*34a35a8bSMartin Erhart if (parser.parseSymbolName(nameAttr, SymbolTable::getSymbolAttrName(),
179*34a35a8bSMartin Erhart result.attributes))
180*34a35a8bSMartin Erhart return failure();
181*34a35a8bSMartin Erhart
182*34a35a8bSMartin Erhart // Parse the function signature.
183*34a35a8bSMartin Erhart SMLoc signatureLocation = parser.getCurrentLocation();
184*34a35a8bSMartin Erhart bool isVariadic = false;
185*34a35a8bSMartin Erhart if (parseFunctionSignature(parser, allowVariadic, entryArgs, isVariadic,
186*34a35a8bSMartin Erhart resultTypes, resultAttrs))
187*34a35a8bSMartin Erhart return failure();
188*34a35a8bSMartin Erhart
189*34a35a8bSMartin Erhart std::string errorMessage;
190*34a35a8bSMartin Erhart SmallVector<Type> argTypes;
191*34a35a8bSMartin Erhart argTypes.reserve(entryArgs.size());
192*34a35a8bSMartin Erhart for (auto &arg : entryArgs)
193*34a35a8bSMartin Erhart argTypes.push_back(arg.type);
194*34a35a8bSMartin Erhart Type type = funcTypeBuilder(builder, argTypes, resultTypes,
195*34a35a8bSMartin Erhart VariadicFlag(isVariadic), errorMessage);
196*34a35a8bSMartin Erhart if (!type) {
197*34a35a8bSMartin Erhart return parser.emitError(signatureLocation)
198*34a35a8bSMartin Erhart << "failed to construct function type"
199*34a35a8bSMartin Erhart << (errorMessage.empty() ? "" : ": ") << errorMessage;
200*34a35a8bSMartin Erhart }
201*34a35a8bSMartin Erhart result.addAttribute(typeAttrName, TypeAttr::get(type));
202*34a35a8bSMartin Erhart
203*34a35a8bSMartin Erhart // If function attributes are present, parse them.
204*34a35a8bSMartin Erhart NamedAttrList parsedAttributes;
205*34a35a8bSMartin Erhart SMLoc attributeDictLocation = parser.getCurrentLocation();
206*34a35a8bSMartin Erhart if (parser.parseOptionalAttrDictWithKeyword(parsedAttributes))
207*34a35a8bSMartin Erhart return failure();
208*34a35a8bSMartin Erhart
209*34a35a8bSMartin Erhart // Disallow attributes that are inferred from elsewhere in the attribute
210*34a35a8bSMartin Erhart // dictionary.
211*34a35a8bSMartin Erhart for (StringRef disallowed :
212*34a35a8bSMartin Erhart {SymbolTable::getVisibilityAttrName(), SymbolTable::getSymbolAttrName(),
213*34a35a8bSMartin Erhart typeAttrName.getValue()}) {
214*34a35a8bSMartin Erhart if (parsedAttributes.get(disallowed))
215*34a35a8bSMartin Erhart return parser.emitError(attributeDictLocation, "'")
216*34a35a8bSMartin Erhart << disallowed
217*34a35a8bSMartin Erhart << "' is an inferred attribute and should not be specified in the "
218*34a35a8bSMartin Erhart "explicit attribute dictionary";
219*34a35a8bSMartin Erhart }
220*34a35a8bSMartin Erhart result.attributes.append(parsedAttributes);
221*34a35a8bSMartin Erhart
222*34a35a8bSMartin Erhart // Add the attributes to the function arguments.
223*34a35a8bSMartin Erhart assert(resultAttrs.size() == resultTypes.size());
224*34a35a8bSMartin Erhart addArgAndResultAttrs(builder, result, entryArgs, resultAttrs, argAttrsName,
225*34a35a8bSMartin Erhart resAttrsName);
226*34a35a8bSMartin Erhart
227*34a35a8bSMartin Erhart // Parse the optional function body. The printer will not print the body if
228*34a35a8bSMartin Erhart // its empty, so disallow parsing of empty body in the parser.
229*34a35a8bSMartin Erhart auto *body = result.addRegion();
230*34a35a8bSMartin Erhart SMLoc loc = parser.getCurrentLocation();
231*34a35a8bSMartin Erhart OptionalParseResult parseResult =
232*34a35a8bSMartin Erhart parser.parseOptionalRegion(*body, entryArgs,
233*34a35a8bSMartin Erhart /*enableNameShadowing=*/false);
234*34a35a8bSMartin Erhart if (parseResult.has_value()) {
235*34a35a8bSMartin Erhart if (failed(*parseResult))
236*34a35a8bSMartin Erhart return failure();
237*34a35a8bSMartin Erhart // Function body was parsed, make sure its not empty.
238*34a35a8bSMartin Erhart if (body->empty())
239*34a35a8bSMartin Erhart return parser.emitError(loc, "expected non-empty function body");
240*34a35a8bSMartin Erhart }
241*34a35a8bSMartin Erhart return success();
242*34a35a8bSMartin Erhart }
243*34a35a8bSMartin Erhart
244*34a35a8bSMartin Erhart /// Print a function result list. The provided `attrs` must either be null, or
245*34a35a8bSMartin Erhart /// contain a set of DictionaryAttrs of the same arity as `types`.
printFunctionResultList(OpAsmPrinter & p,ArrayRef<Type> types,ArrayAttr attrs)246*34a35a8bSMartin Erhart static void printFunctionResultList(OpAsmPrinter &p, ArrayRef<Type> types,
247*34a35a8bSMartin Erhart ArrayAttr attrs) {
248*34a35a8bSMartin Erhart assert(!types.empty() && "Should not be called for empty result list.");
249*34a35a8bSMartin Erhart assert((!attrs || attrs.size() == types.size()) &&
250*34a35a8bSMartin Erhart "Invalid number of attributes.");
251*34a35a8bSMartin Erhart
252*34a35a8bSMartin Erhart auto &os = p.getStream();
253*34a35a8bSMartin Erhart bool needsParens = types.size() > 1 || llvm::isa<FunctionType>(types[0]) ||
254*34a35a8bSMartin Erhart (attrs && !llvm::cast<DictionaryAttr>(attrs[0]).empty());
255*34a35a8bSMartin Erhart if (needsParens)
256*34a35a8bSMartin Erhart os << '(';
257*34a35a8bSMartin Erhart llvm::interleaveComma(llvm::seq<size_t>(0, types.size()), os, [&](size_t i) {
258*34a35a8bSMartin Erhart p.printType(types[i]);
259*34a35a8bSMartin Erhart if (attrs)
260*34a35a8bSMartin Erhart p.printOptionalAttrDict(llvm::cast<DictionaryAttr>(attrs[i]).getValue());
261*34a35a8bSMartin Erhart });
262*34a35a8bSMartin Erhart if (needsParens)
263*34a35a8bSMartin Erhart os << ')';
264*34a35a8bSMartin Erhart }
265*34a35a8bSMartin Erhart
printFunctionSignature(OpAsmPrinter & p,FunctionOpInterface op,ArrayRef<Type> argTypes,bool isVariadic,ArrayRef<Type> resultTypes)266*34a35a8bSMartin Erhart void function_interface_impl::printFunctionSignature(
267*34a35a8bSMartin Erhart OpAsmPrinter &p, FunctionOpInterface op, ArrayRef<Type> argTypes,
268*34a35a8bSMartin Erhart bool isVariadic, ArrayRef<Type> resultTypes) {
269*34a35a8bSMartin Erhart Region &body = op->getRegion(0);
270*34a35a8bSMartin Erhart bool isExternal = body.empty();
271*34a35a8bSMartin Erhart
272*34a35a8bSMartin Erhart p << '(';
273*34a35a8bSMartin Erhart ArrayAttr argAttrs = op.getArgAttrsAttr();
274*34a35a8bSMartin Erhart for (unsigned i = 0, e = argTypes.size(); i < e; ++i) {
275*34a35a8bSMartin Erhart if (i > 0)
276*34a35a8bSMartin Erhart p << ", ";
277*34a35a8bSMartin Erhart
278*34a35a8bSMartin Erhart if (!isExternal) {
279*34a35a8bSMartin Erhart ArrayRef<NamedAttribute> attrs;
280*34a35a8bSMartin Erhart if (argAttrs)
281*34a35a8bSMartin Erhart attrs = llvm::cast<DictionaryAttr>(argAttrs[i]).getValue();
282*34a35a8bSMartin Erhart p.printRegionArgument(body.getArgument(i), attrs);
283*34a35a8bSMartin Erhart } else {
284*34a35a8bSMartin Erhart p.printType(argTypes[i]);
285*34a35a8bSMartin Erhart if (argAttrs)
286*34a35a8bSMartin Erhart p.printOptionalAttrDict(
287*34a35a8bSMartin Erhart llvm::cast<DictionaryAttr>(argAttrs[i]).getValue());
288*34a35a8bSMartin Erhart }
289*34a35a8bSMartin Erhart }
290*34a35a8bSMartin Erhart
291*34a35a8bSMartin Erhart if (isVariadic) {
292*34a35a8bSMartin Erhart if (!argTypes.empty())
293*34a35a8bSMartin Erhart p << ", ";
294*34a35a8bSMartin Erhart p << "...";
295*34a35a8bSMartin Erhart }
296*34a35a8bSMartin Erhart
297*34a35a8bSMartin Erhart p << ')';
298*34a35a8bSMartin Erhart
299*34a35a8bSMartin Erhart if (!resultTypes.empty()) {
300*34a35a8bSMartin Erhart p.getStream() << " -> ";
301*34a35a8bSMartin Erhart auto resultAttrs = op.getResAttrsAttr();
302*34a35a8bSMartin Erhart printFunctionResultList(p, resultTypes, resultAttrs);
303*34a35a8bSMartin Erhart }
304*34a35a8bSMartin Erhart }
305*34a35a8bSMartin Erhart
printFunctionAttributes(OpAsmPrinter & p,Operation * op,ArrayRef<StringRef> elided)306*34a35a8bSMartin Erhart void function_interface_impl::printFunctionAttributes(
307*34a35a8bSMartin Erhart OpAsmPrinter &p, Operation *op, ArrayRef<StringRef> elided) {
308*34a35a8bSMartin Erhart // Print out function attributes, if present.
309*34a35a8bSMartin Erhart SmallVector<StringRef, 8> ignoredAttrs = {SymbolTable::getSymbolAttrName()};
310*34a35a8bSMartin Erhart ignoredAttrs.append(elided.begin(), elided.end());
311*34a35a8bSMartin Erhart
312*34a35a8bSMartin Erhart p.printOptionalAttrDictWithKeyword(op->getAttrs(), ignoredAttrs);
313*34a35a8bSMartin Erhart }
314*34a35a8bSMartin Erhart
printFunctionOp(OpAsmPrinter & p,FunctionOpInterface op,bool isVariadic,StringRef typeAttrName,StringAttr argAttrsName,StringAttr resAttrsName)315*34a35a8bSMartin Erhart void function_interface_impl::printFunctionOp(
316*34a35a8bSMartin Erhart OpAsmPrinter &p, FunctionOpInterface op, bool isVariadic,
317*34a35a8bSMartin Erhart StringRef typeAttrName, StringAttr argAttrsName, StringAttr resAttrsName) {
318*34a35a8bSMartin Erhart // Print the operation and the function name.
319*34a35a8bSMartin Erhart auto funcName =
320*34a35a8bSMartin Erhart op->getAttrOfType<StringAttr>(SymbolTable::getSymbolAttrName())
321*34a35a8bSMartin Erhart .getValue();
322*34a35a8bSMartin Erhart p << ' ';
323*34a35a8bSMartin Erhart
324*34a35a8bSMartin Erhart StringRef visibilityAttrName = SymbolTable::getVisibilityAttrName();
325*34a35a8bSMartin Erhart if (auto visibility = op->getAttrOfType<StringAttr>(visibilityAttrName))
326*34a35a8bSMartin Erhart p << visibility.getValue() << ' ';
327*34a35a8bSMartin Erhart p.printSymbolName(funcName);
328*34a35a8bSMartin Erhart
329*34a35a8bSMartin Erhart ArrayRef<Type> argTypes = op.getArgumentTypes();
330*34a35a8bSMartin Erhart ArrayRef<Type> resultTypes = op.getResultTypes();
331*34a35a8bSMartin Erhart printFunctionSignature(p, op, argTypes, isVariadic, resultTypes);
332*34a35a8bSMartin Erhart printFunctionAttributes(
333*34a35a8bSMartin Erhart p, op, {visibilityAttrName, typeAttrName, argAttrsName, resAttrsName});
334*34a35a8bSMartin Erhart // Print the body if this is not an external function.
335*34a35a8bSMartin Erhart Region &body = op->getRegion(0);
336*34a35a8bSMartin Erhart if (!body.empty()) {
337*34a35a8bSMartin Erhart p << ' ';
338*34a35a8bSMartin Erhart p.printRegion(body, /*printEntryBlockArgs=*/false,
339*34a35a8bSMartin Erhart /*printBlockTerminators=*/true);
340*34a35a8bSMartin Erhart }
341*34a35a8bSMartin Erhart }
342