AsmMatcherEmitter.cpp revision a008e8ac73cb3cf2eaf006fbb1b62905c8626758
1d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar//===- AsmMatcherEmitter.cpp - Generate an assembly matcher ---------------===// 2d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar// 3d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar// The LLVM Compiler Infrastructure 4d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar// 5d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar// This file is distributed under the University of Illinois Open Source 6d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar// License. See LICENSE.TXT for details. 7d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar// 8d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar//===----------------------------------------------------------------------===// 9d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar// 10d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar// This tablegen backend emits a target specifier matcher for converting parsed 11d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar// assembly operands in the MCInst structures. 12d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar// 1320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// The input to the target specific matcher is a list of literal tokens and 1420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// operands. The target specific parser should generally eliminate any syntax 1520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// which is not relevant for matching; for example, comma tokens should have 1620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// already been consumed and eliminated by the parser. Most instructions will 1720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// end up with a single literal token (the instruction name) and some number of 1820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// operands. 1920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 2020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// Some example inputs, for X86: 2120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 'addl' (immediate ...) (register ...) 2220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 'add' (immediate ...) (memory ...) 2320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 'call' '*' %epc 2420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 2520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// The assembly matcher is responsible for converting this input into a precise 2620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// machine instruction (i.e., an instruction with a well defined encoding). This 2720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// mapping has several properties which complicate matching: 2820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 2920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// - It may be ambiguous; many architectures can legally encode particular 3020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// variants of an instruction in different ways (for example, using a smaller 3120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// encoding for small immediates). Such ambiguities should never be 3220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// arbitrarily resolved by the assembler, the assembler is always responsible 3320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// for choosing the "best" available instruction. 3420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 3520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// - It may depend on the subtarget or the assembler context. Instructions 3620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// which are invalid for the current mode, but otherwise unambiguous (e.g., 3720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// an SSE instruction in a file being assembled for i486) should be accepted 3820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// and rejected by the assembler front end. However, if the proper encoding 3920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// for an instruction is dependent on the assembler context then the matcher 4020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// is responsible for selecting the correct machine instruction for the 4120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// current mode. 4220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 4320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// The core matching algorithm attempts to exploit the regularity in most 4420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// instruction sets to quickly determine the set of possibly matching 4520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// instructions, and the simplify the generated code. Additionally, this helps 4620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// to ensure that the ambiguities are intentionally resolved by the user. 4720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 4820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// The matching is divided into two distinct phases: 4920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 5020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 1. Classification: Each operand is mapped to the unique set which (a) 5120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// contains it, and (b) is the largest such subset for which a single 5220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// instruction could match all members. 5320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 5420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// For register classes, we can generate these subgroups automatically. For 5520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// arbitrary operands, we expect the user to define the classes and their 5620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// relations to one another (for example, 8-bit signed immediates as a 5720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// subset of 32-bit immediates). 5820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 5920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// By partitioning the operands in this way, we guarantee that for any 6020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// tuple of classes, any single instruction must match either all or none 6120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// of the sets of operands which could classify to that tuple. 6220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 6320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// In addition, the subset relation amongst classes induces a partial order 6420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// on such tuples, which we use to resolve ambiguities. 6520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 6620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// FIXME: What do we do if a crazy case shows up where this is the wrong 6720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// resolution? 6820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 6920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 2. The input can now be treated as a tuple of classes (static tokens are 7020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// simple singleton sets). Each such tuple should generally map to a single 7120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// instruction (we currently ignore cases where this isn't true, whee!!!), 7220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// which we can emit a simple matcher for. 7320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar// 74d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar//===----------------------------------------------------------------------===// 75d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar 76d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar#include "AsmMatcherEmitter.h" 77d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar#include "CodeGenTarget.h" 78d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar#include "Record.h" 795845e5c62b42d025557765006515156691a6a8b1Chris Lattner#include "StringMatcher.h" 8020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar#include "llvm/ADT/OwningPtr.h" 81a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar#include "llvm/ADT/SmallVector.h" 82606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar#include "llvm/ADT/STLExtras.h" 8320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar#include "llvm/ADT/StringExtras.h" 8420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar#include "llvm/Support/CommandLine.h" 85a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar#include "llvm/Support/Debug.h" 86a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar#include <list> 87b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar#include <map> 88b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar#include <set> 89d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbarusing namespace llvm; 90d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar 912724915c171b08fa9f7f9e54a46ea81708d9c5b2Daniel Dunbarstatic cl::opt<std::string> 92606e8ad796f72824f5509e2657c44eca025d4bafDaniel DunbarMatchPrefix("match-prefix", cl::init(""), 93606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar cl::desc("Only match instructions with the given prefix")); 9420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 95a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar/// FlattenVariants - Flatten an .td file assembly string by selecting the 96a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar/// variant at index \arg N. 97a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbarstatic std::string FlattenVariants(const std::string &AsmString, 98a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar unsigned N) { 99a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar StringRef Cur = AsmString; 100a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar std::string Res = ""; 101a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 102a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar for (;;) { 10353a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar // Find the start of the next variant string. 10453a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar size_t VariantsStart = 0; 10553a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar for (size_t e = Cur.size(); VariantsStart != e; ++VariantsStart) 10653a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar if (Cur[VariantsStart] == '{' && 10720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar (VariantsStart == 0 || (Cur[VariantsStart-1] != '$' && 10820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Cur[VariantsStart-1] != '\\'))) 10953a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar break; 11053a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar 11153a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar // Add the prefix to the result. 11253a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar Res += Cur.slice(0, VariantsStart); 11353a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar if (VariantsStart == Cur.size()) 114a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar break; 115a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 11653a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar ++VariantsStart; // Skip the '{'. 11753a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar 11853a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar // Scan to the end of the variants string. 11953a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar size_t VariantsEnd = VariantsStart; 12053a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar unsigned NestedBraces = 1; 12153a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar for (size_t e = Cur.size(); VariantsEnd != e; ++VariantsEnd) { 12220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (Cur[VariantsEnd] == '}' && Cur[VariantsEnd-1] != '\\') { 12353a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar if (--NestedBraces == 0) 12453a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar break; 12553a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar } else if (Cur[VariantsEnd] == '{') 12653a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar ++NestedBraces; 12753a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar } 128a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 129a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar // Select the Nth variant (or empty). 13053a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar StringRef Selection = Cur.slice(VariantsStart, VariantsEnd); 131a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar for (unsigned i = 0; i != N; ++i) 132a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar Selection = Selection.split('|').second; 133a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar Res += Selection.split('|').first; 134a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 13553a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar assert(VariantsEnd != Cur.size() && 13653a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar "Unterminated variants in assembly string!"); 13753a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar Cur = Cur.substr(VariantsEnd + 1); 138a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar } 139a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 140a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar return Res; 141a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar} 142a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 143a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar/// TokenizeAsmString - Tokenize a simplified assembly string. 144b8d6e98e566724f58344d275a4bd675249bb713aChris Lattnerstatic void TokenizeAsmString(StringRef AsmString, 145a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar SmallVectorImpl<StringRef> &Tokens) { 146a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar unsigned Prev = 0; 147a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar bool InTok = true; 148a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar for (unsigned i = 0, e = AsmString.size(); i != e; ++i) { 149a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar switch (AsmString[i]) { 15020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar case '[': 15120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar case ']': 152a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar case '*': 153a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar case '!': 154a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar case ' ': 155a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar case '\t': 156a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar case ',': 157a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar if (InTok) { 15820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Tokens.push_back(AsmString.slice(Prev, i)); 159a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar InTok = false; 160a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar } 16120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (!isspace(AsmString[i]) && AsmString[i] != ',') 16220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Tokens.push_back(AsmString.substr(i, 1)); 163a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar Prev = i + 1; 164a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar break; 16520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 16620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar case '\\': 16720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (InTok) { 16820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Tokens.push_back(AsmString.slice(Prev, i)); 16920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar InTok = false; 17020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 17120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar ++i; 17220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar assert(i != AsmString.size() && "Invalid quoted character"); 17320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Tokens.push_back(AsmString.substr(i, 1)); 17420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Prev = i + 1; 17520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar break; 17620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 17720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar case '$': { 17820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // If this isn't "${", treat like a normal token. 17920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (i + 1 == AsmString.size() || AsmString[i + 1] != '{') { 18020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (InTok) { 18120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Tokens.push_back(AsmString.slice(Prev, i)); 18220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar InTok = false; 18320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 18420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Prev = i; 18520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar break; 18620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 18720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 18820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (InTok) { 18920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Tokens.push_back(AsmString.slice(Prev, i)); 19020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar InTok = false; 19120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 19220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 19320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar StringRef::iterator End = 19420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar std::find(AsmString.begin() + i, AsmString.end(), '}'); 19520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar assert(End != AsmString.end() && "Missing brace in operand reference!"); 19620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar size_t EndPos = End - AsmString.begin(); 19720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Tokens.push_back(AsmString.slice(i, EndPos+1)); 19820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Prev = EndPos + 1; 19920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar i = EndPos; 20020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar break; 20120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 202a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 2034d39b6728dcdcf131bc0739f4ee0f90c836bf94fDaniel Dunbar case '.': 2044d39b6728dcdcf131bc0739f4ee0f90c836bf94fDaniel Dunbar if (InTok) { 2054d39b6728dcdcf131bc0739f4ee0f90c836bf94fDaniel Dunbar Tokens.push_back(AsmString.slice(Prev, i)); 2064d39b6728dcdcf131bc0739f4ee0f90c836bf94fDaniel Dunbar } 2074d39b6728dcdcf131bc0739f4ee0f90c836bf94fDaniel Dunbar Prev = i; 2084d39b6728dcdcf131bc0739f4ee0f90c836bf94fDaniel Dunbar InTok = true; 2094d39b6728dcdcf131bc0739f4ee0f90c836bf94fDaniel Dunbar break; 2104d39b6728dcdcf131bc0739f4ee0f90c836bf94fDaniel Dunbar 211a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar default: 212a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar InTok = true; 213a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar } 214a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar } 215a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar if (InTok && Prev != AsmString.size()) 21620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Tokens.push_back(AsmString.substr(Prev)); 217a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar} 218a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 219b8d6e98e566724f58344d275a4bd675249bb713aChris Lattnerstatic bool IsAssemblerInstruction(StringRef Name, 22020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar const CodeGenInstruction &CGI, 22120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar const SmallVectorImpl<StringRef> &Tokens) { 2227417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar // Ignore "codegen only" instructions. 2237417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar if (CGI.TheDef->getValueAsBit("isCodeGenOnly")) 2247417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar return false; 2257417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar 2267417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar // Ignore pseudo ops. 22720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // 2287417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar // FIXME: This is a hack; can we convert these instructions to set the 2297417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar // "codegen only" bit instead? 23020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (const RecordVal *Form = CGI.TheDef->getValue("Form")) 23120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (Form->getValue()->getAsString() == "Pseudo") 23220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar return false; 23320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 23472fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar // Ignore "Int_*" and "*_Int" instructions, which are internal aliases. 23572fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar // 23672fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar // FIXME: This is a total hack. 23772fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar if (StringRef(Name).startswith("Int_") || StringRef(Name).endswith("_Int")) 23872fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar return false; 23972fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar 24020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Ignore instructions with no .s string. 24120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // 24220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // FIXME: What are these? 24320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (CGI.AsmString.empty()) 24420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar return false; 24520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 24620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // FIXME: Hack; ignore any instructions with a newline in them. 24720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (std::find(CGI.AsmString.begin(), 24820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar CGI.AsmString.end(), '\n') != CGI.AsmString.end()) 24920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar return false; 25020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 25120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Ignore instructions with attributes, these are always fake instructions for 25220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // simplifying codegen. 25320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // 25420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // FIXME: Is this true? 25520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // 2567417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar // Also, check for instructions which reference the operand multiple times; 2577417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar // this implies a constraint we would not honor. 25820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar std::set<std::string> OperandNames; 25920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar for (unsigned i = 1, e = Tokens.size(); i < e; ++i) { 26020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (Tokens[i][0] == '$' && 26120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar std::find(Tokens[i].begin(), 26220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Tokens[i].end(), ':') != Tokens[i].end()) { 26320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar DEBUG({ 26420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar errs() << "warning: '" << Name << "': " 26520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar << "ignoring instruction; operand with attribute '" 2667417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar << Tokens[i] << "'\n"; 26720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar }); 26820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar return false; 26920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 27022be5225ff88ffaab83c36fa133e70586b91166dDaniel Dunbar 27120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (Tokens[i][0] == '$' && !OperandNames.insert(Tokens[i]).second) { 272a9ba5fe2bde747fadcb57c5304bc4700fc155704Daniel Dunbar DEBUG({ 273a9ba5fe2bde747fadcb57c5304bc4700fc155704Daniel Dunbar errs() << "warning: '" << Name << "': " 274a9ba5fe2bde747fadcb57c5304bc4700fc155704Daniel Dunbar << "ignoring instruction with tied operand '" 275a9ba5fe2bde747fadcb57c5304bc4700fc155704Daniel Dunbar << Tokens[i].str() << "'\n"; 276a9ba5fe2bde747fadcb57c5304bc4700fc155704Daniel Dunbar }); 277a9ba5fe2bde747fadcb57c5304bc4700fc155704Daniel Dunbar return false; 27820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 27920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 28022be5225ff88ffaab83c36fa133e70586b91166dDaniel Dunbar 28120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar return true; 28220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar} 28322be5225ff88ffaab83c36fa133e70586b91166dDaniel Dunbar 28420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbarnamespace { 28522be5225ff88ffaab83c36fa133e70586b91166dDaniel Dunbar 28654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbarstruct SubtargetFeatureInfo; 28754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 288a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar/// ClassInfo - Helper class for storing the information about a particular 289a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar/// class of operands which can be matched. 290a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarstruct ClassInfo { 291606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar enum ClassInfoKind { 292ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// Invalid kind, for use as a sentinel value. 293ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar Invalid = 0, 294ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 295ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// The class for a particular token. 296ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar Token, 297ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 298ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// The (first) register class, subsequent register classes are 299ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// RegisterClass0+1, and so on. 300ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar RegisterClass0, 301ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 302ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// The (first) user defined class, subsequent user defined classes are 303ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// UserClass0+1, and so on. 304ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar UserClass0 = 1<<16 305606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar }; 306606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar 307606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar /// Kind - The class kind, which is either a predefined kind, or (UserClass0 + 308606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar /// N) for the Nth user defined class. 309606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar unsigned Kind; 310a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 311ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// SuperClasses - The super classes of this class. Note that for simplicities 312ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// sake user operands only record their immediate super class, while register 313ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// operands include all superclasses. 314ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::vector<ClassInfo*> SuperClasses; 3155fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar 3166745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar /// Name - The full class name, suitable for use in an enum. 317a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar std::string Name; 318a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 3196745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar /// ClassName - The unadorned generic name for this class (e.g., Token). 3206745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar std::string ClassName; 3216745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar 322a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// ValueName - The name of the value this class represents; for a token this 323a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// is the literal token string, for an operand it is the TableGen class (or 324a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// empty if this is a derived class). 325a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar std::string ValueName; 326a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 327a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// PredicateMethod - The name of the operand method to test whether the 328ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// operand matches this class; this is not valid for Token or register kinds. 329a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar std::string PredicateMethod; 330a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 331a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// RenderMethod - The name of the operand method to add this operand to an 332ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// MCInst; this is not valid for Token or register kinds. 333a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar std::string RenderMethod; 334606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar 3358409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar /// For register classes, the records for all the registers in this class. 3368409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar std::set<Record*> Registers; 3378409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar 3388409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbarpublic: 339ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// isRegisterClass() - Check if this is a register class. 340ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar bool isRegisterClass() const { 341ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar return Kind >= RegisterClass0 && Kind < UserClass0; 342ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 343ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 3445fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar /// isUserClass() - Check if this is a user defined class. 3455fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar bool isUserClass() const { 3465fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar return Kind >= UserClass0; 3475fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar } 3485fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar 349ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// isRelatedTo - Check whether this class is "related" to \arg RHS. Classes 350ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// are related if they are in the same class hierarchy. 351ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar bool isRelatedTo(const ClassInfo &RHS) const { 352ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Tokens are only related to tokens. 353ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (Kind == Token || RHS.Kind == Token) 354ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar return Kind == Token && RHS.Kind == Token; 355ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 3568409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar // Registers classes are only related to registers classes, and only if 3578409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar // their intersection is non-empty. 3588409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar if (isRegisterClass() || RHS.isRegisterClass()) { 3598409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar if (!isRegisterClass() || !RHS.isRegisterClass()) 3608409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar return false; 3618409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar 3628409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar std::set<Record*> Tmp; 3638409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar std::insert_iterator< std::set<Record*> > II(Tmp, Tmp.begin()); 3648409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar std::set_intersection(Registers.begin(), Registers.end(), 3658409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar RHS.Registers.begin(), RHS.Registers.end(), 3668409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar II); 3678409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar 3688409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar return !Tmp.empty(); 3698409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar } 370ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 371ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Otherwise we have two users operands; they are related if they are in the 372ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // same class hierarchy. 3738409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar // 3748409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar // FIXME: This is an oversimplification, they should only be related if they 3758409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar // intersect, however we don't have that information. 376ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar assert(isUserClass() && RHS.isUserClass() && "Unexpected class!"); 377ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar const ClassInfo *Root = this; 378ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar while (!Root->SuperClasses.empty()) 379ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar Root = Root->SuperClasses.front(); 380ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 3818409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar const ClassInfo *RHSRoot = &RHS; 382ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar while (!RHSRoot->SuperClasses.empty()) 383ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar RHSRoot = RHSRoot->SuperClasses.front(); 384ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 385ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar return Root == RHSRoot; 386ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 387ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 388ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// isSubsetOf - Test whether this class is a subset of \arg RHS; 389ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar bool isSubsetOf(const ClassInfo &RHS) const { 390ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // This is a subset of RHS if it is the same class... 391ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (this == &RHS) 392ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar return true; 393ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 394ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // ... or if any of its super classes are a subset of RHS. 395ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::vector<ClassInfo*>::const_iterator it = SuperClasses.begin(), 396ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ie = SuperClasses.end(); it != ie; ++it) 397ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if ((*it)->isSubsetOf(RHS)) 398ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar return true; 399ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 400ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar return false; 4015fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar } 4025fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar 403606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar /// operator< - Compare two classes. 404606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar bool operator<(const ClassInfo &RHS) const { 405368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar if (this == &RHS) 406368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar return false; 407368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar 408ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Unrelated classes can be ordered by kind. 409ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (!isRelatedTo(RHS)) 410606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar return Kind < RHS.Kind; 411606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar 412606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar switch (Kind) { 4136745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar case Invalid: 4146745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar assert(0 && "Invalid kind!"); 415606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar case Token: 4165fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar // Tokens are comparable by value. 417606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar // 418606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar // FIXME: Compare by enum value. 419606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar return ValueName < RHS.ValueName; 420606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar 421606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar default: 422ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // This class preceeds the RHS if it is a proper subset of the RHS. 423368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar if (isSubsetOf(RHS)) 4243472766f9eb7d66f234c390ce1b3a8b76f0ee9ceDuncan Sands return true; 425368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar if (RHS.isSubsetOf(*this)) 4263472766f9eb7d66f234c390ce1b3a8b76f0ee9ceDuncan Sands return false; 427368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar 428368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar // Otherwise, order by name to ensure we have a total ordering. 429368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar return ValueName < RHS.ValueName; 430606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar } 431606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar } 432a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar}; 433a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 434b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar/// InstructionInfo - Helper class for storing the necessary information for an 435b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar/// instruction which is capable of being matched. 43620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbarstruct InstructionInfo { 43720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar struct Operand { 438a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// The unique class instance this operand should match. 439a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar ClassInfo *Class; 440a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 441a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// The original operand this corresponds to, if any. 442fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer const CodeGenInstruction::OperandInfo *OperandInfo; 44320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar }; 44420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 44520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar /// InstrName - The target name for this instruction. 44620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar std::string InstrName; 44720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 44820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar /// Instr - The instruction this matches. 44920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar const CodeGenInstruction *Instr; 45020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 45120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar /// AsmString - The assembly string for this instruction (with variants 45220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar /// removed). 45320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar std::string AsmString; 45420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 45520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar /// Tokens - The tokenized assembly pattern that this instruction matches. 45620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar SmallVector<StringRef, 4> Tokens; 45720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 45820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar /// Operands - The operands that this instruction matches. 45920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar SmallVector<Operand, 4> Operands; 46020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 46154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar /// Predicates - The required subtarget features to match this instruction. 46254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar SmallVector<SubtargetFeatureInfo*, 4> RequiredFeatures; 46354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 464b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar /// ConversionFnKind - The enum value which is passed to the generated 465b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar /// ConvertToMCInst to convert parsed operands into an MCInst for this 466b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar /// function. 467b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar std::string ConversionFnKind; 46820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 469606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar /// operator< - Compare two instructions. 470606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar bool operator<(const InstructionInfo &RHS) const { 471e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner // The primary comparator is the instruction mnemonic. 472e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner if (Tokens[0] != RHS.Tokens[0]) 473e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner return Tokens[0] < RHS.Tokens[0]; 474e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner 475606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar if (Operands.size() != RHS.Operands.size()) 476606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar return Operands.size() < RHS.Operands.size(); 4772b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar 478db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar // Compare lexicographically by operand. The matcher validates that other 479db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar // orderings wouldn't be ambiguous using \see CouldMatchAmiguouslyWith(). 480db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar for (unsigned i = 0, e = Operands.size(); i != e; ++i) { 4812b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar if (*Operands[i].Class < *RHS.Operands[i].Class) 4822b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar return true; 483db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar if (*RHS.Operands[i].Class < *Operands[i].Class) 484db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar return false; 485db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar } 486db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar 4872b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar return false; 4882b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar } 489606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar 4902b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar /// CouldMatchAmiguouslyWith - Check whether this instruction could 4912b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar /// ambiguously match the same set of operands as \arg RHS (without being a 4922b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar /// strictly superior match). 4932b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar bool CouldMatchAmiguouslyWith(const InstructionInfo &RHS) { 4942b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar // The number of operands is unambiguous. 4952b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar if (Operands.size() != RHS.Operands.size()) 4962b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar return false; 497606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar 4981402f0b2cac017ab997f71ab4909a2ccfea7be4bDaniel Dunbar // Otherwise, make sure the ordering of the two instructions is unambiguous 4991402f0b2cac017ab997f71ab4909a2ccfea7be4bDaniel Dunbar // by checking that either (a) a token or operand kind discriminates them, 5001402f0b2cac017ab997f71ab4909a2ccfea7be4bDaniel Dunbar // or (b) the ordering among equivalent kinds is consistent. 5011402f0b2cac017ab997f71ab4909a2ccfea7be4bDaniel Dunbar 5022b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar // Tokens and operand kinds are unambiguous (assuming a correct target 5032b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar // specific parser). 504606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar for (unsigned i = 0, e = Operands.size(); i != e; ++i) 5052b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar if (Operands[i].Class->Kind != RHS.Operands[i].Class->Kind || 5062b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar Operands[i].Class->Kind == ClassInfo::Token) 5072b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar if (*Operands[i].Class < *RHS.Operands[i].Class || 5082b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar *RHS.Operands[i].Class < *Operands[i].Class) 5092b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar return false; 5102b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar 5112b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar // Otherwise, this operand could commute if all operands are equivalent, or 5122b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar // there is a pair of operands that compare less than and a pair that 5132b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar // compare greater than. 5142b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar bool HasLT = false, HasGT = false; 5152b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar for (unsigned i = 0, e = Operands.size(); i != e; ++i) { 516606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar if (*Operands[i].Class < *RHS.Operands[i].Class) 5172b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar HasLT = true; 5182b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar if (*RHS.Operands[i].Class < *Operands[i].Class) 5192b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar HasGT = true; 5202b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar } 521606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar 5222b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar return !(HasLT ^ HasGT); 523606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar } 524606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar 52520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbarpublic: 52620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar void dump(); 52720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar}; 52820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 52954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar/// SubtargetFeatureInfo - Helper class for storing information on a subtarget 53054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar/// feature which participates in instruction matching. 53154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbarstruct SubtargetFeatureInfo { 53254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar /// \brief The predicate record for this feature. 53354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar Record *TheDef; 53454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 53554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar /// \brief An unique index assigned to represent this feature. 53654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar unsigned Index; 53754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 53854074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar /// \brief The name of the enumerated constant identifying this feature. 53954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar std::string EnumName; 54054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar}; 54154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 542a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarclass AsmMatcherInfo { 543a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarpublic: 54459fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar /// The tablegen AsmParser record. 54559fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar Record *AsmParser; 54659fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar 54759fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar /// The AsmParser "CommentDelimiter" value. 54859fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar std::string CommentDelimiter; 54959fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar 55059fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar /// The AsmParser "RegisterPrefix" value. 55159fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar std::string RegisterPrefix; 55259fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar 553a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// The classes which are needed for matching. 554a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar std::vector<ClassInfo*> Classes; 555a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 556a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// The information on the instruction to match. 557a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar std::vector<InstructionInfo*> Instructions; 558a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 559ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// Map of Register records to their class information. 560ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::map<Record*, ClassInfo*> RegisterClasses; 561ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 56254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar /// Map of Predicate records to their subtarget information. 56354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar std::map<Record*, SubtargetFeatureInfo*> SubtargetFeatures; 56454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 565a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarprivate: 566a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// Map of token to class information which has already been constructed. 567a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar std::map<std::string, ClassInfo*> TokenClasses; 568a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 569ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// Map of RegisterClass records to their class information. 570ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::map<Record*, ClassInfo*> RegisterClassClasses; 571a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 572338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar /// Map of AsmOperandClass records to their class information. 573338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar std::map<Record*, ClassInfo*> AsmOperandClasses; 5746745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar 575a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarprivate: 576a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// getTokenClass - Lookup or create the class for the given token. 577b8d6e98e566724f58344d275a4bd675249bb713aChris Lattner ClassInfo *getTokenClass(StringRef Token); 578a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 579a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// getOperandClass - Lookup or create the class for the given operand. 580b8d6e98e566724f58344d275a4bd675249bb713aChris Lattner ClassInfo *getOperandClass(StringRef Token, 581a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar const CodeGenInstruction::OperandInfo &OI); 582a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 58354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar /// getSubtargetFeature - Lookup or create the subtarget feature info for the 58454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar /// given operand. 58554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar SubtargetFeatureInfo *getSubtargetFeature(Record *Def) { 58654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar assert(Def->isSubClassOf("Predicate") && "Invalid predicate type!"); 58754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 58854074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar SubtargetFeatureInfo *&Entry = SubtargetFeatures[Def]; 58954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar if (!Entry) { 59054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar Entry = new SubtargetFeatureInfo; 59154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar Entry->TheDef = Def; 59254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar Entry->Index = SubtargetFeatures.size() - 1; 59354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar Entry->EnumName = "Feature_" + Def->getName(); 59454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar assert(Entry->Index < 32 && "Too many subtarget features!"); 59554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar } 59654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 59754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar return Entry; 59854074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar } 59954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 600ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// BuildRegisterClasses - Build the ClassInfo* instances for register 601ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// classes. 6021095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar void BuildRegisterClasses(CodeGenTarget &Target, 6031095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar std::set<std::string> &SingletonRegisterNames); 604ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 605ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// BuildOperandClasses - Build the ClassInfo* instances for user defined 606ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar /// operand classes. 607ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar void BuildOperandClasses(CodeGenTarget &Target); 608ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 609a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarpublic: 61059fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar AsmMatcherInfo(Record *_AsmParser); 61159fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar 612a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar /// BuildInfo - Construct the various tables used during matching. 613a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar void BuildInfo(CodeGenTarget &Target); 614a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar}; 615a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 61620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar} 61720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 61820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbarvoid InstructionInfo::dump() { 61920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar errs() << InstrName << " -- " << "flattened:\"" << AsmString << '\"' 62020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar << ", tokens:["; 62120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar for (unsigned i = 0, e = Tokens.size(); i != e; ++i) { 62220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar errs() << Tokens[i]; 62320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (i + 1 != e) 62420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar errs() << ", "; 62522be5225ff88ffaab83c36fa133e70586b91166dDaniel Dunbar } 62620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar errs() << "]\n"; 627a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 62820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar for (unsigned i = 0, e = Operands.size(); i != e; ++i) { 62920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar Operand &Op = Operands[i]; 6306745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar errs() << " op[" << i << "] = " << Op.Class->ClassName << " - "; 631a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar if (Op.Class->Kind == ClassInfo::Token) { 63220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar errs() << '\"' << Tokens[i] << "\"\n"; 63320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar continue; 63420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 635a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 6361095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar if (!Op.OperandInfo) { 6371095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar errs() << "(singleton register)\n"; 6381095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar continue; 6391095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } 6401095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 641fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer const CodeGenInstruction::OperandInfo &OI = *Op.OperandInfo; 64220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar errs() << OI.Name << " " << OI.Rec->getName() 64320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar << " (" << OI.MIOperandNo << ", " << OI.MINumOperands << ")\n"; 64420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 64520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar} 646a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 647b8d6e98e566724f58344d275a4bd675249bb713aChris Lattnerstatic std::string getEnumNameForToken(StringRef Str) { 648a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar std::string Res; 649a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 650a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar for (StringRef::iterator it = Str.begin(), ie = Str.end(); it != ie; ++it) { 651a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar switch (*it) { 652a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar case '*': Res += "_STAR_"; break; 653a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar case '%': Res += "_PCT_"; break; 654a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar case ':': Res += "_COLON_"; break; 655a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 656a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar default: 657a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar if (isalnum(*it)) { 658a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Res += *it; 659a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } else { 660a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Res += "_" + utostr((unsigned) *it) + "_"; 661a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 662a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 663a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 66420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 665a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar return Res; 666a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar} 667a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 6681095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar/// getRegisterRecord - Get the register record for \arg name, or 0. 669b8d6e98e566724f58344d275a4bd675249bb713aChris Lattnerstatic Record *getRegisterRecord(CodeGenTarget &Target, StringRef Name) { 6701095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar for (unsigned i = 0, e = Target.getRegisters().size(); i != e; ++i) { 6711095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar const CodeGenRegister &Reg = Target.getRegisters()[i]; 6721095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar if (Name == Reg.TheDef->getValueAsString("AsmName")) 6731095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar return Reg.TheDef; 6741095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } 6751095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 6761095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar return 0; 6771095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar} 6781095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 679b8d6e98e566724f58344d275a4bd675249bb713aChris LattnerClassInfo *AsmMatcherInfo::getTokenClass(StringRef Token) { 680a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar ClassInfo *&Entry = TokenClasses[Token]; 681a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 682a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar if (!Entry) { 683a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Entry = new ClassInfo(); 684a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Entry->Kind = ClassInfo::Token; 6856745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar Entry->ClassName = "Token"; 686a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Entry->Name = "MCK_" + getEnumNameForToken(Token); 687a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Entry->ValueName = Token; 688a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Entry->PredicateMethod = "<invalid>"; 689a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Entry->RenderMethod = "<invalid>"; 690a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Classes.push_back(Entry); 691a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 692a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 693a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar return Entry; 694a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar} 695a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 696a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel DunbarClassInfo * 697b8d6e98e566724f58344d275a4bd675249bb713aChris LattnerAsmMatcherInfo::getOperandClass(StringRef Token, 698a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar const CodeGenInstruction::OperandInfo &OI) { 699ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (OI.Rec->isSubClassOf("RegisterClass")) { 700ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ClassInfo *CI = RegisterClassClasses[OI.Rec]; 701ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 702ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (!CI) { 703ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar PrintError(OI.Rec->getLoc(), "register class has no class info!"); 704ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar throw std::string("ERROR: Missing register class!"); 705ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 706ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 707ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar return CI; 708ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 709338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar 710338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar assert(OI.Rec->isSubClassOf("Operand") && "Unexpected operand!"); 711338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar Record *MatchClass = OI.Rec->getValueAsDef("ParserMatchClass"); 712338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar ClassInfo *CI = AsmOperandClasses[MatchClass]; 7135fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar 714338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar if (!CI) { 715338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar PrintError(OI.Rec->getLoc(), "operand has no match class!"); 716338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar throw std::string("ERROR: Missing match class!"); 717a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 718a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 719338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar return CI; 720338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar} 721338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar 7221095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbarvoid AsmMatcherInfo::BuildRegisterClasses(CodeGenTarget &Target, 7231095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar std::set<std::string> 7241095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar &SingletonRegisterNames) { 725ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::vector<CodeGenRegisterClass> RegisterClasses; 726ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::vector<CodeGenRegister> Registers; 727338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar 728ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar RegisterClasses = Target.getRegisterClasses(); 729ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar Registers = Target.getRegisters(); 730338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar 731ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // The register sets used for matching. 732ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::set< std::set<Record*> > RegisterSets; 733ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 734ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Gather the defined sets. 735ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::vector<CodeGenRegisterClass>::iterator it = RegisterClasses.begin(), 736ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ie = RegisterClasses.end(); it != ie; ++it) 737ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar RegisterSets.insert(std::set<Record*>(it->Elements.begin(), 738ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar it->Elements.end())); 7391095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 7401095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // Add any required singleton sets. 7411095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar for (std::set<std::string>::iterator it = SingletonRegisterNames.begin(), 7421095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar ie = SingletonRegisterNames.end(); it != ie; ++it) 7431095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar if (Record *Rec = getRegisterRecord(Target, *it)) 7441095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar RegisterSets.insert(std::set<Record*>(&Rec, &Rec + 1)); 7451095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 746ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Introduce derived sets where necessary (when a register does not determine 747ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // a unique register set class), and build the mapping of registers to the set 748ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // they should classify to. 749ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::map<Record*, std::set<Record*> > RegisterMap; 750ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::vector<CodeGenRegister>::iterator it = Registers.begin(), 751ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ie = Registers.end(); it != ie; ++it) { 752ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CodeGenRegister &CGR = *it; 753ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Compute the intersection of all sets containing this register. 754ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::set<Record*> ContainingSet; 755ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 756ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::set< std::set<Record*> >::iterator it = RegisterSets.begin(), 757ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ie = RegisterSets.end(); it != ie; ++it) { 758ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (!it->count(CGR.TheDef)) 759ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar continue; 760ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 761ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (ContainingSet.empty()) { 762ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ContainingSet = *it; 763ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } else { 764ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::set<Record*> Tmp; 765ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::swap(Tmp, ContainingSet); 766ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::insert_iterator< std::set<Record*> > II(ContainingSet, 767ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ContainingSet.begin()); 768ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::set_intersection(Tmp.begin(), Tmp.end(), it->begin(), it->end(), 769ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar II); 770ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 771ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 772ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 773ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (!ContainingSet.empty()) { 774ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar RegisterSets.insert(ContainingSet); 775ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar RegisterMap.insert(std::make_pair(CGR.TheDef, ContainingSet)); 776ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 777ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 778ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 779ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Construct the register classes. 780ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::map<std::set<Record*>, ClassInfo*> RegisterSetClasses; 781ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar unsigned Index = 0; 782ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::set< std::set<Record*> >::iterator it = RegisterSets.begin(), 783ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ie = RegisterSets.end(); it != ie; ++it, ++Index) { 784ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ClassInfo *CI = new ClassInfo(); 785ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->Kind = ClassInfo::RegisterClass0 + Index; 786ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->ClassName = "Reg" + utostr(Index); 787ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->Name = "MCK_Reg" + utostr(Index); 788ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->ValueName = ""; 789ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->PredicateMethod = ""; // unused 790ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->RenderMethod = "addRegOperands"; 7918409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar CI->Registers = *it; 792ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar Classes.push_back(CI); 793ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar RegisterSetClasses.insert(std::make_pair(*it, CI)); 794ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 795ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 796ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Find the superclasses; we could compute only the subgroup lattice edges, 797ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // but there isn't really a point. 798ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::set< std::set<Record*> >::iterator it = RegisterSets.begin(), 799ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ie = RegisterSets.end(); it != ie; ++it) { 800ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ClassInfo *CI = RegisterSetClasses[*it]; 801ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::set< std::set<Record*> >::iterator it2 = RegisterSets.begin(), 802ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ie2 = RegisterSets.end(); it2 != ie2; ++it2) 803ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (*it != *it2 && 804ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar std::includes(it2->begin(), it2->end(), it->begin(), it->end())) 805ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->SuperClasses.push_back(RegisterSetClasses[*it2]); 806ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 807ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 808ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Name the register classes which correspond to a user defined RegisterClass. 809ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::vector<CodeGenRegisterClass>::iterator it = RegisterClasses.begin(), 810ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ie = RegisterClasses.end(); it != ie; ++it) { 811ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ClassInfo *CI = RegisterSetClasses[std::set<Record*>(it->Elements.begin(), 812ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar it->Elements.end())]; 813ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (CI->ValueName.empty()) { 814ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->ClassName = it->getName(); 815ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->Name = "MCK_" + it->getName(); 816ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->ValueName = it->getName(); 817ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } else 818ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->ValueName = CI->ValueName + "," + it->getName(); 819ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 820ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar RegisterClassClasses.insert(std::make_pair(it->TheDef, CI)); 821ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 822ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 823ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Populate the map for individual registers. 824ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::map<Record*, std::set<Record*> >::iterator it = RegisterMap.begin(), 825ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ie = RegisterMap.end(); it != ie; ++it) 826ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar this->RegisterClasses[it->first] = RegisterSetClasses[it->second]; 8271095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 8281095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // Name the register classes which correspond to singleton registers. 8291095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar for (std::set<std::string>::iterator it = SingletonRegisterNames.begin(), 8301095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar ie = SingletonRegisterNames.end(); it != ie; ++it) { 8311095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar if (Record *Rec = getRegisterRecord(Target, *it)) { 8321095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar ClassInfo *CI = this->RegisterClasses[Rec]; 8331095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar assert(CI && "Missing singleton register class info!"); 8341095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 8351095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar if (CI->ValueName.empty()) { 8361095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar CI->ClassName = Rec->getName(); 8371095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar CI->Name = "MCK_" + Rec->getName(); 8381095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar CI->ValueName = Rec->getName(); 8391095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } else 8401095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar CI->ValueName = CI->ValueName + "," + Rec->getName(); 8411095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } 8421095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } 843ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar} 844ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 845ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbarvoid AsmMatcherInfo::BuildOperandClasses(CodeGenTarget &Target) { 846338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar std::vector<Record*> AsmOperands; 847338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar AsmOperands = Records.getAllDerivedDefinitions("AsmOperandClass"); 848a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar 849a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar // Pre-populate AsmOperandClasses map. 850a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar for (std::vector<Record*>::iterator it = AsmOperands.begin(), 851a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar ie = AsmOperands.end(); it != ie; ++it) 852a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar AsmOperandClasses[*it] = new ClassInfo(); 853a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar 854338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar unsigned Index = 0; 855338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar for (std::vector<Record*>::iterator it = AsmOperands.begin(), 856338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar ie = AsmOperands.end(); it != ie; ++it, ++Index) { 857a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar ClassInfo *CI = AsmOperandClasses[*it]; 858338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar CI->Kind = ClassInfo::UserClass0 + Index; 859338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar 86054ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar ListInit *Supers = (*it)->getValueAsListInit("SuperClasses"); 86154ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar for (unsigned i = 0, e = Supers->getSize(); i != e; ++i) { 86254ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar DefInit *DI = dynamic_cast<DefInit*>(Supers->getElement(i)); 86354ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar if (!DI) { 86454ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar PrintError((*it)->getLoc(), "Invalid super class reference!"); 86554ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar continue; 86654ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar } 86754ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar 868ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ClassInfo *SC = AsmOperandClasses[DI->getDef()]; 869ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (!SC) 870338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar PrintError((*it)->getLoc(), "Invalid super class reference!"); 871ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar else 872ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar CI->SuperClasses.push_back(SC); 873a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 874338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar CI->ClassName = (*it)->getValueAsString("Name"); 875338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar CI->Name = "MCK_" + CI->ClassName; 876338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar CI->ValueName = (*it)->getName(); 8775c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar 8785c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar // Get or construct the predicate method name. 8795c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar Init *PMName = (*it)->getValueInit("PredicateMethod"); 8805c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar if (StringInit *SI = dynamic_cast<StringInit*>(PMName)) { 8815c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar CI->PredicateMethod = SI->getValue(); 8825c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar } else { 8835c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar assert(dynamic_cast<UnsetInit*>(PMName) && 8845c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar "Unexpected PredicateMethod field!"); 8855c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar CI->PredicateMethod = "is" + CI->ClassName; 8865c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar } 8875c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar 8885c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar // Get or construct the render method name. 8895c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar Init *RMName = (*it)->getValueInit("RenderMethod"); 8905c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar if (StringInit *SI = dynamic_cast<StringInit*>(RMName)) { 8915c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar CI->RenderMethod = SI->getValue(); 8925c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar } else { 8935c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar assert(dynamic_cast<UnsetInit*>(RMName) && 8945c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar "Unexpected RenderMethod field!"); 8955c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar CI->RenderMethod = "add" + CI->ClassName + "Operands"; 8965c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar } 8975c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar 898338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar AsmOperandClasses[*it] = CI; 899338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar Classes.push_back(CI); 900a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 901ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar} 902ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 90359fc42debd571bbafc52c20bc418fdc3f4d00188Daniel DunbarAsmMatcherInfo::AsmMatcherInfo(Record *_AsmParser) 90459fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar : AsmParser(_AsmParser), 90559fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar CommentDelimiter(AsmParser->getValueAsString("CommentDelimiter")), 90659fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar RegisterPrefix(AsmParser->getValueAsString("RegisterPrefix")) 90759fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar{ 90859fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar} 90959fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar 910ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbarvoid AsmMatcherInfo::BuildInfo(CodeGenTarget &Target) { 9111095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // Parse the instructions; we need to do this first so that we can gather the 9121095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // singleton register classes. 9131095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar std::set<std::string> SingletonRegisterNames; 914b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner 915f65027842e82027dd6e8020586a299aaa548e355Chris Lattner const std::vector<const CodeGenInstruction*> &InstrList = 916f65027842e82027dd6e8020586a299aaa548e355Chris Lattner Target.getInstructionsByEnumValue(); 917b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner 918b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner for (unsigned i = 0, e = InstrList.size(); i != e; ++i) { 919b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner const CodeGenInstruction &CGI = *InstrList[i]; 920a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 921b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner if (!StringRef(CGI.TheDef->getName()).startswith(MatchPrefix)) 92253a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar continue; 92353a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar 924b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner OwningPtr<InstructionInfo> II(new InstructionInfo()); 92520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 926b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner II->InstrName = CGI.TheDef->getName(); 927b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner II->Instr = &CGI; 92820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar II->AsmString = FlattenVariants(CGI.AsmString, 0); 92920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 93059fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar // Remove comments from the asm string. 93159fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar if (!CommentDelimiter.empty()) { 93259fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar size_t Idx = StringRef(II->AsmString).find(CommentDelimiter); 93359fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar if (Idx != StringRef::npos) 93459fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar II->AsmString = II->AsmString.substr(0, Idx); 93559fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar } 93659fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar 93720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar TokenizeAsmString(II->AsmString, II->Tokens); 938a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 93920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Ignore instructions which shouldn't be matched. 940b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner if (!IsAssemblerInstruction(CGI.TheDef->getName(), CGI, II->Tokens)) 941a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar continue; 942a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 9431095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // Collect singleton registers, if used. 9441095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar if (!RegisterPrefix.empty()) { 9451095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar for (unsigned i = 0, e = II->Tokens.size(); i != e; ++i) { 9461095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar if (II->Tokens[i].startswith(RegisterPrefix)) { 9471095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar StringRef RegName = II->Tokens[i].substr(RegisterPrefix.size()); 9481095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar Record *Rec = getRegisterRecord(Target, RegName); 9491095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 9501095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar if (!Rec) { 9511095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar std::string Err = "unable to find register for '" + RegName.str() + 9521095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar "' (which matches register prefix)"; 9531095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar throw TGError(CGI.TheDef->getLoc(), Err); 9541095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } 9551095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 9561095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar SingletonRegisterNames.insert(RegName); 9571095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } 9581095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } 9591095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } 96054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 96154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // Compute the require features. 96254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar ListInit *Predicates = CGI.TheDef->getValueAsListInit("Predicates"); 96354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar for (unsigned i = 0, e = Predicates->getSize(); i != e; ++i) { 96454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar if (DefInit *Pred = dynamic_cast<DefInit*>(Predicates->getElement(i))) { 96554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // Ignore OptForSize and OptForSpeed, they aren't really requirements, 96654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // rather they are hints to isel. 96754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // 96854074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // FIXME: Find better way to model this. 96954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar if (Pred->getDef()->getName() == "OptForSize" || 97054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar Pred->getDef()->getName() == "OptForSpeed") 97154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar continue; 97254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 97354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // FIXME: Total hack; for now, we just limit ourselves to In32BitMode 97454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // and In64BitMode, because we aren't going to have the right feature 97554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // masks for SSE and friends. We need to decide what we are going to do 97654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // about CPU subtypes to implement this the right way. 97754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar if (Pred->getDef()->getName() != "In32BitMode" && 97854074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar Pred->getDef()->getName() != "In64BitMode") 97954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar continue; 98054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 98154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar II->RequiredFeatures.push_back(getSubtargetFeature(Pred->getDef())); 98254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar } 98354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar } 98454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 9851095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar Instructions.push_back(II.take()); 9861095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } 9871095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 9881095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // Build info for the register classes. 9891095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar BuildRegisterClasses(Target, SingletonRegisterNames); 9901095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 9911095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // Build info for the user defined assembly operand classes. 9921095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar BuildOperandClasses(Target); 9931095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 9941095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // Build the instruction information. 9951095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar for (std::vector<InstructionInfo*>::iterator it = Instructions.begin(), 9961095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar ie = Instructions.end(); it != ie; ++it) { 9971095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar InstructionInfo *II = *it; 998e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner 999e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner // The first token of the instruction is the mnemonic, which must be a 1000e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner // simple string. 1001e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner assert(!II->Tokens.empty() && "Instruction has no tokens?"); 1002e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner StringRef Mnemonic = II->Tokens[0]; 1003e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner assert(Mnemonic[0] != '$' && 1004e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner (RegisterPrefix.empty() || !Mnemonic.startswith(RegisterPrefix))); 1005e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner 1006e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner // Parse the tokens after the mnemonic. 1007e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner for (unsigned i = 1, e = II->Tokens.size(); i != e; ++i) { 100820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar StringRef Token = II->Tokens[i]; 100920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 10101095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // Check for singleton registers. 10111095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar if (!RegisterPrefix.empty() && Token.startswith(RegisterPrefix)) { 10121095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar StringRef RegName = II->Tokens[i].substr(RegisterPrefix.size()); 10131095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar InstructionInfo::Operand Op; 10141095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar Op.Class = RegisterClasses[getRegisterRecord(Target, RegName)]; 10151095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar Op.OperandInfo = 0; 10161095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar assert(Op.Class && Op.Class->Registers.size() == 1 && 10171095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar "Unexpected class for singleton register"); 10181095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar II->Operands.push_back(Op); 10191095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar continue; 10201095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar } 10211095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 102220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Check for simple tokens. 102320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (Token[0] != '$') { 102420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar InstructionInfo::Operand Op; 1025a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Op.Class = getTokenClass(Token); 1026fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer Op.OperandInfo = 0; 102720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar II->Operands.push_back(Op); 102820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar continue; 102920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 1030a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 103120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Otherwise this is an operand reference. 103220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar StringRef OperandName; 103320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (Token[1] == '{') 103420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar OperandName = Token.substr(2, Token.size() - 3); 103520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar else 103620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar OperandName = Token.substr(1); 103720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 103820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Map this token to an operand. FIXME: Move elsewhere. 103920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar unsigned Idx; 104020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar try { 10411095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar Idx = II->Instr->getOperandNamed(OperandName); 104220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } catch(...) { 10431095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar throw std::string("error: unable to find operand: '" + 10441095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar OperandName.str() + "'"); 104520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 1046a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 1047af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // FIXME: This is annoying, the named operand may be tied (e.g., 1048af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // XCHG8rm). What we want is the untied operand, which we now have to 1049af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // grovel for. Only worry about this for single entry operands, we have to 1050af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // clean this up anyway. 1051af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar const CodeGenInstruction::OperandInfo *OI = &II->Instr->OperandList[Idx]; 1052af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar if (OI->Constraints[0].isTied()) { 1053af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar unsigned TiedOp = OI->Constraints[0].getTiedOperand(); 1054af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar 1055af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // The tied operand index is an MIOperand index, find the operand that 1056af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // contains it. 1057af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar for (unsigned i = 0, e = II->Instr->OperandList.size(); i != e; ++i) { 1058af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar if (II->Instr->OperandList[i].MIOperandNo == TiedOp) { 1059af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar OI = &II->Instr->OperandList[i]; 1060af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar break; 1061af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar } 1062af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar } 1063af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar 1064af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar assert(OI && "Unable to find tied operand target!"); 1065af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar } 1066af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar 1067a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar InstructionInfo::Operand Op; 1068af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar Op.Class = getOperandClass(Token, *OI); 1069af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar Op.OperandInfo = OI; 107020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar II->Operands.push_back(Op); 107153a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar } 107220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 10735fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar 10745fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar // Reorder classes so that classes preceed super classes. 10755fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar std::sort(Classes.begin(), Classes.end(), less_ptr<ClassInfo>()); 107620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar} 1077a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 10783b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbarstatic std::pair<unsigned, unsigned> * 10793b6910dcd466bf091b386bb136f42522c89473f7Daniel DunbarGetTiedOperandAtIndex(SmallVectorImpl<std::pair<unsigned, unsigned> > &List, 10803b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar unsigned Index) { 10813b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar for (unsigned i = 0, e = List.size(); i != e; ++i) 10823b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar if (Index == List[i].first) 10833b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar return &List[i]; 10843b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar 10853b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar return 0; 10863b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar} 10873b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar 1088606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbarstatic void EmitConvertToMCInst(CodeGenTarget &Target, 1089606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar std::vector<InstructionInfo*> &Infos, 1090606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar raw_ostream &OS) { 1091b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar // Write the convert function to a separate stream, so we can drop it after 1092b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar // the enum. 1093b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar std::string ConvertFnBody; 1094b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar raw_string_ostream CvtOS(ConvertFnBody); 1095b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 109620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Function we have already generated. 109720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar std::set<std::string> GeneratedFns; 109820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 1099b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar // Start the unified conversion function. 1100b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 11018cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar CvtOS << "static void ConvertToMCInst(ConversionKind Kind, MCInst &Inst, " 1102b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar << "unsigned Opcode,\n" 11039898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner << " const SmallVectorImpl<MCParsedAsmOperand*" 11049898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner << "> &Operands) {\n"; 1105b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar CvtOS << " Inst.setOpcode(Opcode);\n"; 1106b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar CvtOS << " switch (Kind) {\n"; 1107b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar CvtOS << " default:\n"; 1108b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 1109b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar // Start the enum, which we will generate inline. 1110b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 1111b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar OS << "// Unified function for converting operants to MCInst instances.\n\n"; 1112b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar OS << "enum ConversionKind {\n"; 1113b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 11149898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner // TargetOperandClass - This is the target's operand class, like X86Operand. 11159898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner std::string TargetOperandClass = Target.getName() + "Operand"; 11169898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner 111720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar for (std::vector<InstructionInfo*>::const_iterator it = Infos.begin(), 111820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar ie = Infos.end(); it != ie; ++it) { 111920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar InstructionInfo &II = **it; 112020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 112120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Order the (class) operands by the order to convert them into an MCInst. 112220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar SmallVector<std::pair<unsigned, unsigned>, 4> MIOperandList; 112320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar for (unsigned i = 0, e = II.Operands.size(); i != e; ++i) { 112420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar InstructionInfo::Operand &Op = II.Operands[i]; 1125fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer if (Op.OperandInfo) 1126fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer MIOperandList.push_back(std::make_pair(Op.OperandInfo->MIOperandNo, i)); 112720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 1128af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar 1129af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // Find any tied operands. 1130af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar SmallVector<std::pair<unsigned, unsigned>, 4> TiedOperands; 1131af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar for (unsigned i = 0, e = II.Instr->OperandList.size(); i != e; ++i) { 1132af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar const CodeGenInstruction::OperandInfo &OpInfo = II.Instr->OperandList[i]; 1133af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar for (unsigned j = 0, e = OpInfo.Constraints.size(); j != e; ++j) { 1134af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar const CodeGenInstruction::ConstraintInfo &CI = OpInfo.Constraints[j]; 1135af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar if (CI.isTied()) 1136af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar TiedOperands.push_back(std::make_pair(OpInfo.MIOperandNo + j, 1137af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar CI.getTiedOperand())); 1138af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar } 1139af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar } 1140af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar 114120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar std::sort(MIOperandList.begin(), MIOperandList.end()); 1142a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 114320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Compute the total number of operands. 1144a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar unsigned NumMIOperands = 0; 114520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar for (unsigned i = 0, e = II.Instr->OperandList.size(); i != e; ++i) { 114620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar const CodeGenInstruction::OperandInfo &OI = II.Instr->OperandList[i]; 1147a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar NumMIOperands = std::max(NumMIOperands, 1148a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar OI.MIOperandNo + OI.MINumOperands); 1149a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar } 1150a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 115120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Build the conversion function signature. 115220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar std::string Signature = "Convert"; 115320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar unsigned CurIndex = 0; 115420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar for (unsigned i = 0, e = MIOperandList.size(); i != e; ++i) { 115520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar InstructionInfo::Operand &Op = II.Operands[MIOperandList[i].second]; 1156fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer assert(CurIndex <= Op.OperandInfo->MIOperandNo && 115720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar "Duplicate match for instruction operand!"); 115820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 115920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Skip operands which weren't matched by anything, this occurs when the 116020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // .td file encodes "implicit" operands as explicit ones. 116120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // 116220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // FIXME: This should be removed from the MCInst structure. 1163af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar for (; CurIndex != Op.OperandInfo->MIOperandNo; ++CurIndex) { 11643b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar std::pair<unsigned, unsigned> *Tie = GetTiedOperandAtIndex(TiedOperands, 11653b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar CurIndex); 11663b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar if (!Tie) 1167af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar Signature += "__Imp"; 1168af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar else 11693b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar Signature += "__Tie" + utostr(Tie->second); 1170af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar } 1171af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar 1172af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar Signature += "__"; 1173a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 1174ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Registers are always converted the same, don't duplicate the conversion 1175ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // function based on them. 1176ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // 1177ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // FIXME: We could generalize this based on the render method, if it 1178ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // mattered. 1179ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (Op.Class->isRegisterClass()) 1180ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar Signature += "Reg"; 1181ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar else 1182ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar Signature += Op.Class->ClassName; 1183fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer Signature += utostr(Op.OperandInfo->MINumOperands); 1184b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar Signature += "_" + utostr(MIOperandList[i].second); 1185b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 1186fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer CurIndex += Op.OperandInfo->MINumOperands; 118720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 1188a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 118920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Add any trailing implicit operands. 11903b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar for (; CurIndex != NumMIOperands; ++CurIndex) { 11913b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar std::pair<unsigned, unsigned> *Tie = GetTiedOperandAtIndex(TiedOperands, 11923b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar CurIndex); 11933b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar if (!Tie) 11943b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar Signature += "__Imp"; 11953b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar else 11963b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar Signature += "__Tie" + utostr(Tie->second); 11973b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar } 1198a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 1199b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar II.ConversionFnKind = Signature; 1200a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 1201b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar // Check if we have already generated this signature. 120220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (!GeneratedFns.insert(Signature).second) 120320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar continue; 1204a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 120520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // If not, emit it now. 1206b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 1207b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar // Add to the enum list. 1208b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar OS << " " << Signature << ",\n"; 1209b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 1210b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar // And to the convert function. 1211b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar CvtOS << " case " << Signature << ":\n"; 121220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar CurIndex = 0; 121320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar for (unsigned i = 0, e = MIOperandList.size(); i != e; ++i) { 121420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar InstructionInfo::Operand &Op = II.Operands[MIOperandList[i].second]; 121520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 121620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // Add the implicit operands. 1217af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar for (; CurIndex != Op.OperandInfo->MIOperandNo; ++CurIndex) { 1218af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // See if this is a tied operand. 12193b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar std::pair<unsigned, unsigned> *Tie = GetTiedOperandAtIndex(TiedOperands, 12203b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar CurIndex); 1221af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar 12223b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar if (!Tie) { 1223af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // If not, this is some implicit operand. Just assume it is a register 1224af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // for now. 1225af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar CvtOS << " Inst.addOperand(MCOperand::CreateReg(0));\n"; 1226af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar } else { 1227af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar // Copy the tied operand. 12283b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar assert(Tie->first>Tie->second && "Tied operand preceeds its target!"); 1229af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar CvtOS << " Inst.addOperand(Inst.getOperand(" 12303b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar << Tie->second << "));\n"; 1231af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar } 1232af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar } 123320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 12349898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner CvtOS << " ((" << TargetOperandClass << "*)Operands[" 12359898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner << MIOperandList[i].second 1236e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner << "+1])->" << Op.Class->RenderMethod 1237fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer << "(Inst, " << Op.OperandInfo->MINumOperands << ");\n"; 1238fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer CurIndex += Op.OperandInfo->MINumOperands; 1239a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar } 124020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 124120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar // And add trailing implicit operands. 12423b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar for (; CurIndex != NumMIOperands; ++CurIndex) { 12433b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar std::pair<unsigned, unsigned> *Tie = GetTiedOperandAtIndex(TiedOperands, 12443b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar CurIndex); 12453b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar 12463b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar if (!Tie) { 12473b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar // If not, this is some implicit operand. Just assume it is a register 12483b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar // for now. 12493b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar CvtOS << " Inst.addOperand(MCOperand::CreateReg(0));\n"; 12503b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar } else { 12513b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar // Copy the tied operand. 12523b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar assert(Tie->first>Tie->second && "Tied operand preceeds its target!"); 12533b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar CvtOS << " Inst.addOperand(Inst.getOperand(" 12543b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar << Tie->second << "));\n"; 12553b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar } 12563b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar } 12573b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar 12588cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar CvtOS << " return;\n"; 1259a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar } 1260b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 1261b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar // Finish the convert function. 1262b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 1263b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar CvtOS << " }\n"; 1264b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar CvtOS << "}\n\n"; 1265b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 1266b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar // Finish the enum, and drop the convert function after it. 1267b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 1268b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar OS << " NumConversionVariants\n"; 1269b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar OS << "};\n\n"; 1270b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar 1271b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar OS << CvtOS.str(); 127220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar} 127320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 1274a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar/// EmitMatchClassEnumeration - Emit the enumeration for match class kinds. 1275a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarstatic void EmitMatchClassEnumeration(CodeGenTarget &Target, 1276a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar std::vector<ClassInfo*> &Infos, 1277a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar raw_ostream &OS) { 1278a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "namespace {\n\n"; 1279a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1280a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "/// MatchClassKind - The kinds of classes which participate in\n" 1281a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar << "/// instruction matching.\n"; 1282a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "enum MatchClassKind {\n"; 1283a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " InvalidMatchClass = 0,\n"; 1284a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar for (std::vector<ClassInfo*>::iterator it = Infos.begin(), 1285a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar ie = Infos.end(); it != ie; ++it) { 1286a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar ClassInfo &CI = **it; 1287a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " " << CI.Name << ", // "; 1288a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar if (CI.Kind == ClassInfo::Token) { 1289a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "'" << CI.ValueName << "'\n"; 1290ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } else if (CI.isRegisterClass()) { 1291a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar if (!CI.ValueName.empty()) 1292a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "register class '" << CI.ValueName << "'\n"; 1293a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar else 1294a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "derived register class\n"; 1295a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } else { 1296a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "user defined class '" << CI.ValueName << "'\n"; 1297a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 1298a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 1299a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " NumMatchClassKinds\n"; 1300a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "};\n\n"; 1301a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1302a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "}\n\n"; 1303a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar} 1304a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1305a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar/// EmitClassifyOperand - Emit the function to classify an operand. 1306a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarstatic void EmitClassifyOperand(CodeGenTarget &Target, 1307ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar AsmMatcherInfo &Info, 1308a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar raw_ostream &OS) { 13099898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner OS << "static MatchClassKind ClassifyOperand(MCParsedAsmOperand *GOp) {\n" 13109898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner << " " << Target.getName() << "Operand &Operand = *(" 13119898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner << Target.getName() << "Operand*)GOp;\n"; 1312ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 1313ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Classify tokens. 1314a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " if (Operand.isToken())\n"; 1315a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " return MatchTokenString(Operand.getToken());\n\n"; 1316ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 1317ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Classify registers. 1318ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // 1319ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // FIXME: Don't hardcode isReg, getReg. 1320ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " if (Operand.isReg()) {\n"; 1321ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " switch (Operand.getReg()) {\n"; 1322ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " default: return InvalidMatchClass;\n"; 1323ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::map<Record*, ClassInfo*>::iterator 1324ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar it = Info.RegisterClasses.begin(), ie = Info.RegisterClasses.end(); 1325ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar it != ie; ++it) 1326ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " case " << Target.getName() << "::" 1327ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar << it->first->getName() << ": return " << it->second->Name << ";\n"; 1328ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " }\n"; 1329ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " }\n\n"; 1330ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 1331ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Classify user defined operands. 1332ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (std::vector<ClassInfo*>::iterator it = Info.Classes.begin(), 1333ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar ie = Info.Classes.end(); it != ie; ++it) { 1334a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar ClassInfo &CI = **it; 1335a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1336ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (!CI.isUserClass()) 1337ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar continue; 1338ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 1339ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " // '" << CI.ClassName << "' class"; 1340ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (!CI.SuperClasses.empty()) { 1341ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << ", subclass of "; 1342ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (unsigned i = 0, e = CI.SuperClasses.size(); i != e; ++i) { 1343ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (i) OS << ", "; 1344ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << "'" << CI.SuperClasses[i]->ClassName << "'"; 1345ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar assert(CI < *CI.SuperClasses[i] && "Invalid class relation!"); 13465fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar } 1347ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar } 1348ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << "\n"; 13495fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar 1350ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " if (Operand." << CI.PredicateMethod << "()) {\n"; 13515fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar 1352ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar // Validate subclass relationships. 1353ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (!CI.SuperClasses.empty()) { 1354ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar for (unsigned i = 0, e = CI.SuperClasses.size(); i != e; ++i) 1355ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " assert(Operand." << CI.SuperClasses[i]->PredicateMethod 13565fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar << "() && \"Invalid class relationship!\");\n"; 1357a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 1358ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar 1359ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " return " << CI.Name << ";\n"; 1360ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " }\n\n"; 1361a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 1362a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " return InvalidMatchClass;\n"; 1363a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "}\n\n"; 1364a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar} 1365a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1366fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar/// EmitIsSubclass - Emit the subclass predicate function. 1367fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbarstatic void EmitIsSubclass(CodeGenTarget &Target, 1368fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar std::vector<ClassInfo*> &Infos, 1369fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar raw_ostream &OS) { 1370fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << "/// IsSubclass - Compute whether \\arg A is a subclass of \\arg B.\n"; 1371fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << "static bool IsSubclass(MatchClassKind A, MatchClassKind B) {\n"; 1372fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << " if (A == B)\n"; 1373fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << " return true;\n\n"; 1374fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar 1375fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << " switch (A) {\n"; 1376fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << " default:\n"; 1377fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << " return false;\n"; 1378fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar for (std::vector<ClassInfo*>::iterator it = Infos.begin(), 1379fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar ie = Infos.end(); it != ie; ++it) { 1380fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar ClassInfo &A = **it; 1381fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar 1382fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar if (A.Kind != ClassInfo::Token) { 1383fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar std::vector<StringRef> SuperClasses; 1384fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar for (std::vector<ClassInfo*>::iterator it = Infos.begin(), 1385fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar ie = Infos.end(); it != ie; ++it) { 1386fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar ClassInfo &B = **it; 1387fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar 1388ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar if (&A != &B && A.isSubsetOf(B)) 1389fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar SuperClasses.push_back(B.Name); 1390fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar } 1391fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar 1392fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar if (SuperClasses.empty()) 1393fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar continue; 1394fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar 1395fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << "\n case " << A.Name << ":\n"; 1396fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar 1397fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar if (SuperClasses.size() == 1) { 1398ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " return B == " << SuperClasses.back() << ";\n"; 1399fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar continue; 1400fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar } 1401fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar 1402ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " switch (B) {\n"; 1403ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " default: return false;\n"; 1404fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar for (unsigned i = 0, e = SuperClasses.size(); i != e; ++i) 1405ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " case " << SuperClasses[i] << ": return true;\n"; 1406ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar OS << " }\n"; 1407fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar } 1408fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar } 1409fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << " }\n"; 1410fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << "}\n\n"; 1411fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar} 1412fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar 141370add884e4967f511e2cbb35c61534186b9b418aChris Lattner 141470add884e4967f511e2cbb35c61534186b9b418aChris Lattner 1415245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar/// EmitMatchTokenString - Emit the function to match a token string to the 1416245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar/// appropriate match class value. 1417245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbarstatic void EmitMatchTokenString(CodeGenTarget &Target, 1418245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar std::vector<ClassInfo*> &Infos, 1419245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar raw_ostream &OS) { 1420245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar // Construct the match list. 14215845e5c62b42d025557765006515156691a6a8b1Chris Lattner std::vector<StringMatcher::StringPair> Matches; 1422245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar for (std::vector<ClassInfo*>::iterator it = Infos.begin(), 1423245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar ie = Infos.end(); it != ie; ++it) { 1424245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar ClassInfo &CI = **it; 1425245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar 1426245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar if (CI.Kind == ClassInfo::Token) 14275845e5c62b42d025557765006515156691a6a8b1Chris Lattner Matches.push_back(StringMatcher::StringPair(CI.ValueName, 14285845e5c62b42d025557765006515156691a6a8b1Chris Lattner "return " + CI.Name + ";")); 1429245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar } 1430245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar 1431b8d6e98e566724f58344d275a4bd675249bb713aChris Lattner OS << "static MatchClassKind MatchTokenString(StringRef Name) {\n"; 1432245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar 14335845e5c62b42d025557765006515156691a6a8b1Chris Lattner StringMatcher("Name", Matches, OS).Emit(); 1434245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar 1435245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar OS << " return InvalidMatchClass;\n"; 1436245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar OS << "}\n\n"; 1437245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar} 143870add884e4967f511e2cbb35c61534186b9b418aChris Lattner 14392234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar/// EmitMatchRegisterName - Emit the function to match a string to the target 14402234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar/// specific register enum. 14412234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbarstatic void EmitMatchRegisterName(CodeGenTarget &Target, Record *AsmParser, 14422234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar raw_ostream &OS) { 1443245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar // Construct the match list. 14445845e5c62b42d025557765006515156691a6a8b1Chris Lattner std::vector<StringMatcher::StringPair> Matches; 1445245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar for (unsigned i = 0, e = Target.getRegisters().size(); i != e; ++i) { 1446245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar const CodeGenRegister &Reg = Target.getRegisters()[i]; 144720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar if (Reg.TheDef->getValueAsString("AsmName").empty()) 144820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar continue; 144920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 14505845e5c62b42d025557765006515156691a6a8b1Chris Lattner Matches.push_back(StringMatcher::StringPair( 14515845e5c62b42d025557765006515156691a6a8b1Chris Lattner Reg.TheDef->getValueAsString("AsmName"), 14525845e5c62b42d025557765006515156691a6a8b1Chris Lattner "return " + utostr(i + 1) + ";")); 145320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 145470add884e4967f511e2cbb35c61534186b9b418aChris Lattner 1455b8d6e98e566724f58344d275a4bd675249bb713aChris Lattner OS << "static unsigned MatchRegisterName(StringRef Name) {\n"; 1456245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar 14575845e5c62b42d025557765006515156691a6a8b1Chris Lattner StringMatcher("Name", Matches, OS).Emit(); 145870add884e4967f511e2cbb35c61534186b9b418aChris Lattner 1459245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar OS << " return 0;\n"; 146020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar OS << "}\n\n"; 14612234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar} 14622234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar 146354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar/// EmitSubtargetFeatureFlagEnumeration - Emit the subtarget feature flag 146454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar/// definitions. 146554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbarstatic void EmitSubtargetFeatureFlagEnumeration(CodeGenTarget &Target, 146654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar AsmMatcherInfo &Info, 146754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar raw_ostream &OS) { 146854074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << "// Flags for subtarget features that participate in " 146954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar << "instruction matching.\n"; 147054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << "enum SubtargetFeatureFlag {\n"; 147154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar for (std::map<Record*, SubtargetFeatureInfo*>::const_iterator 147254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar it = Info.SubtargetFeatures.begin(), 147354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar ie = Info.SubtargetFeatures.end(); it != ie; ++it) { 147454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar SubtargetFeatureInfo &SFI = *it->second; 147554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << " " << SFI.EnumName << " = (1 << " << SFI.Index << "),\n"; 147654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar } 147754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << " Feature_None = 0\n"; 147854074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << "};\n\n"; 147954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar} 148054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 148154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar/// EmitComputeAvailableFeatures - Emit the function to compute the list of 148254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar/// available features given a subtarget. 148354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbarstatic void EmitComputeAvailableFeatures(CodeGenTarget &Target, 148454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar AsmMatcherInfo &Info, 148554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar raw_ostream &OS) { 148654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar std::string ClassName = 148754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar Info.AsmParser->getValueAsString("AsmParserClassName"); 148854074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 148954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << "unsigned " << Target.getName() << ClassName << "::\n" 149054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar << "ComputeAvailableFeatures(const " << Target.getName() 149154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar << "Subtarget *Subtarget) const {\n"; 149254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << " unsigned Features = 0;\n"; 149354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar for (std::map<Record*, SubtargetFeatureInfo*>::const_iterator 149454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar it = Info.SubtargetFeatures.begin(), 149554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar ie = Info.SubtargetFeatures.end(); it != ie; ++it) { 149654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar SubtargetFeatureInfo &SFI = *it->second; 149754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << " if (" << SFI.TheDef->getValueAsString("CondString") 149854074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar << ")\n"; 149954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << " Features |= " << SFI.EnumName << ";\n"; 150054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar } 150154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << " return Features;\n"; 150254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << "}\n\n"; 150354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar} 150454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 15052234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbarvoid AsmMatcherEmitter::run(raw_ostream &OS) { 15062234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar CodeGenTarget Target; 15072234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar Record *AsmParser = Target.getAsmParser(); 15082234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar std::string ClassName = AsmParser->getValueAsString("AsmParserClassName"); 15092234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar 1510a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // Compute the information on the instructions to match. 151159fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar AsmMatcherInfo Info(AsmParser); 1512a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Info.BuildInfo(Target); 151320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 1514e1f6de3fbd892ea3f918a26912660cf316866fc1Daniel Dunbar // Sort the instruction table using the partial order on classes. We use 1515e1f6de3fbd892ea3f918a26912660cf316866fc1Daniel Dunbar // stable_sort to ensure that ambiguous instructions are still 1516e1f6de3fbd892ea3f918a26912660cf316866fc1Daniel Dunbar // deterministically ordered. 1517e1f6de3fbd892ea3f918a26912660cf316866fc1Daniel Dunbar std::stable_sort(Info.Instructions.begin(), Info.Instructions.end(), 1518e1f6de3fbd892ea3f918a26912660cf316866fc1Daniel Dunbar less_ptr<InstructionInfo>()); 1519606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar 1520b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar DEBUG_WITH_TYPE("instruction_info", { 1521a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar for (std::vector<InstructionInfo*>::iterator 1522a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar it = Info.Instructions.begin(), ie = Info.Instructions.end(); 1523a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar it != ie; ++it) 152420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar (*it)->dump(); 152520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar }); 152620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 1527606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar // Check for ambiguous instructions. 1528fa0d74d58e6c70ef032afb5f83680276dc4d7370Chris Lattner DEBUG_WITH_TYPE("ambiguous_instrs", { 1529fa0d74d58e6c70ef032afb5f83680276dc4d7370Chris Lattner unsigned NumAmbiguous = 0; 153087410368e1bd50408e787f6ece0e58d94c53c1e1Chris Lattner for (unsigned i = 0, e = Info.Instructions.size(); i != e; ++i) { 153187410368e1bd50408e787f6ece0e58d94c53c1e1Chris Lattner for (unsigned j = i + 1; j != e; ++j) { 153287410368e1bd50408e787f6ece0e58d94c53c1e1Chris Lattner InstructionInfo &A = *Info.Instructions[i]; 153387410368e1bd50408e787f6ece0e58d94c53c1e1Chris Lattner InstructionInfo &B = *Info.Instructions[j]; 153487410368e1bd50408e787f6ece0e58d94c53c1e1Chris Lattner 153587410368e1bd50408e787f6ece0e58d94c53c1e1Chris Lattner if (A.CouldMatchAmiguouslyWith(B)) { 1536fa0d74d58e6c70ef032afb5f83680276dc4d7370Chris Lattner errs() << "warning: ambiguous instruction match:\n"; 1537fa0d74d58e6c70ef032afb5f83680276dc4d7370Chris Lattner A.dump(); 1538fa0d74d58e6c70ef032afb5f83680276dc4d7370Chris Lattner errs() << "\nis incomparable with:\n"; 1539fa0d74d58e6c70ef032afb5f83680276dc4d7370Chris Lattner B.dump(); 1540fa0d74d58e6c70ef032afb5f83680276dc4d7370Chris Lattner errs() << "\n\n"; 154187410368e1bd50408e787f6ece0e58d94c53c1e1Chris Lattner ++NumAmbiguous; 154287410368e1bd50408e787f6ece0e58d94c53c1e1Chris Lattner } 15432b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar } 1544606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar } 154587410368e1bd50408e787f6ece0e58d94c53c1e1Chris Lattner if (NumAmbiguous) 1546fa0d74d58e6c70ef032afb5f83680276dc4d7370Chris Lattner errs() << "warning: " << NumAmbiguous 1547fa0d74d58e6c70ef032afb5f83680276dc4d7370Chris Lattner << " ambiguous instructions!\n"; 1548fa0d74d58e6c70ef032afb5f83680276dc4d7370Chris Lattner }); 1549606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar 15501095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // Write the output. 15511095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 15521095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar EmitSourceFileHeader("Assembly Matcher Source Fragment", OS); 15531095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 15540692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner // Information for the class declaration. 15550692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner OS << "\n#ifdef GET_ASSEMBLER_HEADER\n"; 15560692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner OS << "#undef GET_ASSEMBLER_HEADER\n"; 155779ed3f77e8b87615b80054ca6e4e3ba5e07445bdChris Lattner OS << " // This should be included into the middle of the declaration of \n"; 155879ed3f77e8b87615b80054ca6e4e3ba5e07445bdChris Lattner OS << " // your subclasses implementation of TargetAsmParser.\n"; 15590692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner OS << " unsigned ComputeAvailableFeatures(const " << 15600692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner Target.getName() << "Subtarget *Subtarget) const;\n"; 156179ed3f77e8b87615b80054ca6e4e3ba5e07445bdChris Lattner OS << " enum MatchResultTy {\n"; 1562a008e8ac73cb3cf2eaf006fbb1b62905c8626758Chris Lattner OS << " Match_Success, Match_MnemonicFail, Match_InvalidOperand,\n"; 1563a008e8ac73cb3cf2eaf006fbb1b62905c8626758Chris Lattner OS << " Match_MissingFeature\n"; 156479ed3f77e8b87615b80054ca6e4e3ba5e07445bdChris Lattner OS << " };\n"; 156579ed3f77e8b87615b80054ca6e4e3ba5e07445bdChris Lattner OS << " MatchResultTy MatchInstructionImpl(const SmallVectorImpl<MCParsedAsmOperand*>" 15660692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner << " &Operands, MCInst &Inst);\n\n"; 15670692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner OS << "#endif // GET_ASSEMBLER_HEADER_INFO\n\n"; 15680692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner 15690692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner 15700692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner 15710692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner 15720692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner OS << "\n#ifdef GET_REGISTER_MATCHER\n"; 15730692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner OS << "#undef GET_REGISTER_MATCHER\n\n"; 15740692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner 157554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // Emit the subtarget feature enumeration. 157654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar EmitSubtargetFeatureFlagEnumeration(Target, Info, OS); 157754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 15781095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar // Emit the function to match a register name to number. 15791095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar EmitMatchRegisterName(Target, AsmParser, OS); 15800692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner 15810692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner OS << "#endif // GET_REGISTER_MATCHER\n\n"; 1582e9b466d4f09de3b46c0d0d1e71cabddc7cc9021bSean Callanan 15830692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner 15840692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner OS << "\n#ifdef GET_MATCHER_IMPLEMENTATION\n"; 15850692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner OS << "#undef GET_MATCHER_IMPLEMENTATION\n\n"; 15861095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar 1587606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar // Generate the unified function to convert operands into an MCInst. 1588606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar EmitConvertToMCInst(Target, Info.Instructions, OS); 1589a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1590a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // Emit the enumeration for classes which participate in matching. 1591a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar EmitMatchClassEnumeration(Target, Info.Classes, OS); 159220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 1593a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // Emit the routine to match token strings to their match class. 1594a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar EmitMatchTokenString(Target, Info.Classes, OS); 159520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 1596a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // Emit the routine to classify an operand. 1597ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar EmitClassifyOperand(Target, Info, OS); 1598a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1599fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar // Emit the subclass predicate routine. 1600fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar EmitIsSubclass(Target, Info.Classes, OS); 1601fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar 160254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // Emit the available features compute function. 160354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar EmitComputeAvailableFeatures(Target, Info, OS); 160454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 1605a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1606a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar size_t MaxNumOperands = 0; 1607a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar for (std::vector<InstructionInfo*>::const_iterator it = 1608a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar Info.Instructions.begin(), ie = Info.Instructions.end(); 1609a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar it != ie; ++it) 1610a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar MaxNumOperands = std::max(MaxNumOperands, (*it)->Operands.size()); 161196352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner 161296352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner 1613a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // Emit the static match table; unused classes get initalized to 0 which is 1614a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // guaranteed to be InvalidMatchClass. 1615a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // 1616a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // FIXME: We can reduce the size of this table very easily. First, we change 1617a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // it so that store the kinds in separate bit-fields for each index, which 1618a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // only needs to be the max width used for classes at that index (we also need 1619a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // to reject based on this during classification). If we then make sure to 1620a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // order the match kinds appropriately (putting mnemonics last), then we 1621a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // should only end up using a few bits for each class, especially the ones 1622a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // following the mnemonic. 162396352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner OS << "namespace {\n"; 162496352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner OS << " struct MatchEntry {\n"; 1625a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " unsigned Opcode;\n"; 1626e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner OS << " const char *Mnemonic;\n"; 1627a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " ConversionKind ConvertFn;\n"; 1628a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " MatchClassKind Classes[" << MaxNumOperands << "];\n"; 162954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << " unsigned RequiredFeatures;\n"; 16302b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " };\n\n"; 16312b1f943444d1853204725c7b45b1e1032be39958Chris Lattner 16322b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << "// Predicate for searching for an opcode.\n"; 16332b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " struct LessOpcode {\n"; 16342b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " bool operator()(const MatchEntry &LHS, StringRef RHS) {\n"; 16352b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " return StringRef(LHS.Mnemonic) < RHS;\n"; 16362b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " }\n"; 16372b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " bool operator()(StringRef LHS, const MatchEntry &RHS) {\n"; 16382b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " return LHS < StringRef(RHS.Mnemonic);\n"; 16392b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " }\n"; 164096352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner OS << " };\n"; 16412b1f943444d1853204725c7b45b1e1032be39958Chris Lattner 164296352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner OS << "} // end anonymous namespace.\n\n"; 164396352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner 164496352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner OS << "static const MatchEntry MatchTable[" 164596352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner << Info.Instructions.size() << "] = {\n"; 164696352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner 1647a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar for (std::vector<InstructionInfo*>::const_iterator it = 164896352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner Info.Instructions.begin(), ie = Info.Instructions.end(); 1649a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar it != ie; ++it) { 165020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar InstructionInfo &II = **it; 165196352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner 165296352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner OS << " { " << Target.getName() << "::" << II.InstrName 165396352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner << ", \"" << II.Tokens[0] << "\"" 165496352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner << ", " << II.ConversionFnKind << ", { "; 165520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar for (unsigned i = 0, e = II.Operands.size(); i != e; ++i) { 165620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar InstructionInfo::Operand &Op = II.Operands[i]; 165720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar 1658a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar if (i) OS << ", "; 1659a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << Op.Class->Name; 166020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar } 166154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << " }, "; 166296352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner 166354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // Write the required features mask. 166454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar if (!II.RequiredFeatures.empty()) { 166554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar for (unsigned i = 0, e = II.RequiredFeatures.size(); i != e; ++i) { 166654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar if (i) OS << "|"; 166754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << II.RequiredFeatures[i]->EnumName; 166854074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar } 166954074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar } else 167054074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << "0"; 167196352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner 167254074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << "},\n"; 1673a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar } 167496352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner 167596352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner OS << "};\n\n"; 1676a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 167796352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner // Finally, build the match function. 167896352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner OS << Target.getName() << ClassName << "::MatchResultTy " 167996352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner << Target.getName() << ClassName << "::\n" 168096352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner << "MatchInstructionImpl(const SmallVectorImpl<MCParsedAsmOperand*>" 168196352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner << " &Operands,\n"; 168296352e5ceb9a2fee7b6e67384afd77493b5c6e5bChris Lattner OS << " MCInst &Inst) {\n"; 168354074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 168454074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // Emit code to get the available features. 168554074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << " // Get the current feature set.\n"; 168654074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar OS << " unsigned AvailableFeatures = getAvailableFeatures();\n\n"; 168754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 1688a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // Emit code to compute the class list for this operand vector. 1689a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " // Eliminate obvious mismatches.\n"; 1690e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner OS << " if (Operands.size() > " << MaxNumOperands << "+1)\n"; 1691a008e8ac73cb3cf2eaf006fbb1b62905c8626758Chris Lattner OS << " return Match_InvalidOperand;\n\n"; 1692a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1693a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " // Compute the class list for this operand vector.\n"; 1694a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " MatchClassKind Classes[" << MaxNumOperands << "];\n"; 1695e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner OS << " for (unsigned i = 1, e = Operands.size(); i != e; ++i) {\n"; 1696e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner OS << " Classes[i-1] = ClassifyOperand(Operands[i]);\n\n"; 1697a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1698a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " // Check for invalid operands before matching.\n"; 1699e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner OS << " if (Classes[i-1] == InvalidMatchClass)\n"; 1700a008e8ac73cb3cf2eaf006fbb1b62905c8626758Chris Lattner OS << " return Match_InvalidOperand;\n"; 1701a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " }\n\n"; 1702a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1703a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " // Mark unused classes.\n"; 1704e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner OS << " for (unsigned i = Operands.size()-1, e = " << MaxNumOperands << "; " 1705a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar << "i != e; ++i)\n"; 1706a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " Classes[i] = InvalidMatchClass;\n\n"; 1707a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar 1708e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner OS << " // Get the instruction mneumonic, which is the first token.\n"; 1709e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner OS << " StringRef Mnemonic = ((" << Target.getName() 1710e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner << "Operand*)Operands[0])->getToken();\n\n"; 17112b1f943444d1853204725c7b45b1e1032be39958Chris Lattner 17122b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " bool HadMatchOtherThanFeatures = false;\n\n"; 17132b1f943444d1853204725c7b45b1e1032be39958Chris Lattner 1714a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar // Emit code to search the table. 1715a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " // Search the table.\n"; 17162b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " std::pair<const MatchEntry*, const MatchEntry*> MnemonicRange =\n"; 17172b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " std::equal_range(MatchTable, MatchTable+" 17182b1f943444d1853204725c7b45b1e1032be39958Chris Lattner << Info.Instructions.size() << ", Mnemonic, LessOpcode());\n\n"; 17192b1f943444d1853204725c7b45b1e1032be39958Chris Lattner 1720a008e8ac73cb3cf2eaf006fbb1b62905c8626758Chris Lattner OS << " // Return a more specific error code if no mnemonics match.\n"; 1721a008e8ac73cb3cf2eaf006fbb1b62905c8626758Chris Lattner OS << " if (MnemonicRange.first == MnemonicRange.second)\n"; 1722a008e8ac73cb3cf2eaf006fbb1b62905c8626758Chris Lattner OS << " return Match_MnemonicFail;\n\n"; 1723a008e8ac73cb3cf2eaf006fbb1b62905c8626758Chris Lattner 17242b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " for (const MatchEntry *it = MnemonicRange.first, " 172580db4e51d2a44bc623b5892bed2351406890b9aaChris Lattner << "*ie = MnemonicRange.second;\n"; 17262b1f943444d1853204725c7b45b1e1032be39958Chris Lattner OS << " it != ie; ++it) {\n"; 172754074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar 172844b0daad44791ff249a0bc533a5e58e978c2ca31Chris Lattner OS << " // equal_range guarantees that instruction mneumonic matches.\n"; 172944b0daad44791ff249a0bc533a5e58e978c2ca31Chris Lattner OS << " assert(Mnemonic == it->Mnemonic);\n"; 1730e206fcf0e9c7e79c7f42ff2151f3fb58cba70674Chris Lattner 173154074b5f04f5affc77b5c6f3e5d8062b50384831Daniel Dunbar // Emit check that the subclasses match. 1732a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar for (unsigned i = 0; i != MaxNumOperands; ++i) { 1733fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar OS << " if (!IsSubclass(Classes[" 1734fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar << i << "], it->Classes[" << i << "]))\n"; 1735a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " continue;\n"; 1736a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar } 1737ec6789f4f97ca1701c163132b6e3388366463090Chris Lattner 1738ec6789f4f97ca1701c163132b6e3388366463090Chris Lattner // Emit check that the required features are available. 1739ec6789f4f97ca1701c163132b6e3388366463090Chris Lattner OS << " if ((AvailableFeatures & it->RequiredFeatures) " 1740ec6789f4f97ca1701c163132b6e3388366463090Chris Lattner << "!= it->RequiredFeatures) {\n"; 1741ec6789f4f97ca1701c163132b6e3388366463090Chris Lattner OS << " HadMatchOtherThanFeatures = true;\n"; 1742ec6789f4f97ca1701c163132b6e3388366463090Chris Lattner OS << " continue;\n"; 1743ec6789f4f97ca1701c163132b6e3388366463090Chris Lattner OS << " }\n"; 17440692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner 1745a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << "\n"; 17468cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar OS << " ConvertToMCInst(it->ConvertFn, Inst, it->Opcode, Operands);\n"; 17478cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar 17488cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar // Call the post-processing function, if used. 17498cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar std::string InsnCleanupFn = 17508cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar AsmParser->getValueAsString("AsmParserInstCleanup"); 17518cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar if (!InsnCleanupFn.empty()) 17528cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar OS << " " << InsnCleanupFn << "(Inst);\n"; 17538cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar 175479ed3f77e8b87615b80054ca6e4e3ba5e07445bdChris Lattner OS << " return Match_Success;\n"; 1755a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar OS << " }\n\n"; 1756a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar 1757ec6789f4f97ca1701c163132b6e3388366463090Chris Lattner OS << " // Okay, we had no match. Try to return a useful error code.\n"; 1758ec6789f4f97ca1701c163132b6e3388366463090Chris Lattner OS << " if (HadMatchOtherThanFeatures) return Match_MissingFeature;\n"; 1759a008e8ac73cb3cf2eaf006fbb1b62905c8626758Chris Lattner OS << " return Match_InvalidOperand;\n"; 1760a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar OS << "}\n\n"; 1761e9b466d4f09de3b46c0d0d1e71cabddc7cc9021bSean Callanan 17620692ee676f8cdad25ad09a868bf597af4115c9d9Chris Lattner OS << "#endif // GET_MATCHER_IMPLEMENTATION\n\n"; 1763d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar} 1764