AsmMatcherEmitter.cpp revision 3472766f9eb7d66f234c390ce1b3a8b76f0ee9ce 
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"
7920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar#include "llvm/ADT/OwningPtr.h"
80a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar#include "llvm/ADT/SmallVector.h"
81606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar#include "llvm/ADT/STLExtras.h"
8220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar#include "llvm/ADT/StringExtras.h"
8320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar#include "llvm/Support/CommandLine.h"
84a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar#include "llvm/Support/Debug.h"
85a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar#include <list>
86b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar#include <map>
87b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar#include <set>
88d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbarusing namespace llvm;
89d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar
902724915c171b08fa9f7f9e54a46ea81708d9c5b2Daniel Dunbarstatic cl::opt<std::string>
91606e8ad796f72824f5509e2657c44eca025d4bafDaniel DunbarMatchPrefix("match-prefix", cl::init(""),
92606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar            cl::desc("Only match instructions with the given prefix"));
9320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
94a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar/// FlattenVariants - Flatten an .td file assembly string by selecting the
95a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar/// variant at index \arg N.
96a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbarstatic std::string FlattenVariants(const std::string &AsmString,
97a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar                                   unsigned N) {
98a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  StringRef Cur = AsmString;
99a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  std::string Res = "";
100a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
101a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  for (;;) {
10253a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    // Find the start of the next variant string.
10353a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    size_t VariantsStart = 0;
10453a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    for (size_t e = Cur.size(); VariantsStart != e; ++VariantsStart)
10553a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar      if (Cur[VariantsStart] == '{' &&
10620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar          (VariantsStart == 0 || (Cur[VariantsStart-1] != '$' &&
10720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar                                  Cur[VariantsStart-1] != '\\')))
10853a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar        break;
10953a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar
11053a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    // Add the prefix to the result.
11153a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    Res += Cur.slice(0, VariantsStart);
11253a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    if (VariantsStart == Cur.size())
113a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar      break;
114a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
11553a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    ++VariantsStart; // Skip the '{'.
11653a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar
11753a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    // Scan to the end of the variants string.
11853a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    size_t VariantsEnd = VariantsStart;
11953a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    unsigned NestedBraces = 1;
12053a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    for (size_t e = Cur.size(); VariantsEnd != e; ++VariantsEnd) {
12120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      if (Cur[VariantsEnd] == '}' && Cur[VariantsEnd-1] != '\\') {
12253a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar        if (--NestedBraces == 0)
12353a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar          break;
12453a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar      } else if (Cur[VariantsEnd] == '{')
12553a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar        ++NestedBraces;
12653a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    }
127a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
128a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    // Select the Nth variant (or empty).
12953a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    StringRef Selection = Cur.slice(VariantsStart, VariantsEnd);
130a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    for (unsigned i = 0; i != N; ++i)
131a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar      Selection = Selection.split('|').second;
132a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    Res += Selection.split('|').first;
133a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
13453a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    assert(VariantsEnd != Cur.size() &&
13553a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar           "Unterminated variants in assembly string!");
13653a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    Cur = Cur.substr(VariantsEnd + 1);
137a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  }
138a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
139a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  return Res;
140a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar}
141a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
142a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar/// TokenizeAsmString - Tokenize a simplified assembly string.
143b8d6e98e566724f58344d275a4bd675249bb713aChris Lattnerstatic void TokenizeAsmString(StringRef AsmString,
144a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar                              SmallVectorImpl<StringRef> &Tokens) {
145a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  unsigned Prev = 0;
146a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  bool InTok = true;
147a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  for (unsigned i = 0, e = AsmString.size(); i != e; ++i) {
148a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    switch (AsmString[i]) {
14920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    case '[':
15020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    case ']':
151a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    case '*':
152a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    case '!':
153a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    case ' ':
154a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    case '\t':
155a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    case ',':
156a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar      if (InTok) {
15720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        Tokens.push_back(AsmString.slice(Prev, i));
158a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar        InTok = false;
159a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar      }
16020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      if (!isspace(AsmString[i]) && AsmString[i] != ',')
16120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        Tokens.push_back(AsmString.substr(i, 1));
162a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar      Prev = i + 1;
163a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar      break;
16420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
16520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    case '\\':
16620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      if (InTok) {
16720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        Tokens.push_back(AsmString.slice(Prev, i));
16820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        InTok = false;
16920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      }
17020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      ++i;
17120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      assert(i != AsmString.size() && "Invalid quoted character");
17220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      Tokens.push_back(AsmString.substr(i, 1));
17320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      Prev = i + 1;
17420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      break;
17520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
17620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    case '$': {
17720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      // If this isn't "${", treat like a normal token.
17820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      if (i + 1 == AsmString.size() || AsmString[i + 1] != '{') {
17920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        if (InTok) {
18020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar          Tokens.push_back(AsmString.slice(Prev, i));
18120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar          InTok = false;
18220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        }
18320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        Prev = i;
18420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        break;
18520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      }
18620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
18720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      if (InTok) {
18820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        Tokens.push_back(AsmString.slice(Prev, i));
18920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        InTok = false;
19020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      }
19120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
19220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      StringRef::iterator End =
19320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        std::find(AsmString.begin() + i, AsmString.end(), '}');
19420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      assert(End != AsmString.end() && "Missing brace in operand reference!");
19520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      size_t EndPos = End - AsmString.begin();
19620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      Tokens.push_back(AsmString.slice(i, EndPos+1));
19720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      Prev = EndPos + 1;
19820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      i = EndPos;
19920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      break;
20020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    }
201a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
202a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    default:
203a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar      InTok = true;
204a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    }
205a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  }
206a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  if (InTok && Prev != AsmString.size())
20720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    Tokens.push_back(AsmString.substr(Prev));
208a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar}
209a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
210b8d6e98e566724f58344d275a4bd675249bb713aChris Lattnerstatic bool IsAssemblerInstruction(StringRef Name,
21120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar                                   const CodeGenInstruction &CGI,
21220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar                                   const SmallVectorImpl<StringRef> &Tokens) {
2137417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar  // Ignore "codegen only" instructions.
2147417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar  if (CGI.TheDef->getValueAsBit("isCodeGenOnly"))
2157417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar    return false;
2167417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar
2177417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar  // Ignore pseudo ops.
21820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  //
2197417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar  // FIXME: This is a hack; can we convert these instructions to set the
2207417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar  // "codegen only" bit instead?
22120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  if (const RecordVal *Form = CGI.TheDef->getValue("Form"))
22220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    if (Form->getValue()->getAsString() == "Pseudo")
22320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      return false;
22420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
22572fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar  // Ignore "Int_*" and "*_Int" instructions, which are internal aliases.
22672fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar  //
22772fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar  // FIXME: This is a total hack.
22872fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar  if (StringRef(Name).startswith("Int_") || StringRef(Name).endswith("_Int"))
22972fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar    return false;
23072fa87f0cfe22faa575280dbac8dbc9225dfb12dDaniel Dunbar
23120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  // Ignore instructions with no .s string.
23220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  //
23320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  // FIXME: What are these?
23420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  if (CGI.AsmString.empty())
23520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    return false;
23620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
23720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  // FIXME: Hack; ignore any instructions with a newline in them.
23820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  if (std::find(CGI.AsmString.begin(),
23920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar                CGI.AsmString.end(), '\n') != CGI.AsmString.end())
24020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    return false;
24120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
24220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  // Ignore instructions with attributes, these are always fake instructions for
24320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  // simplifying codegen.
24420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  //
24520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  // FIXME: Is this true?
24620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  //
2477417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar  // Also, check for instructions which reference the operand multiple times;
2487417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar  // this implies a constraint we would not honor.
24920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  std::set<std::string> OperandNames;
25020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  for (unsigned i = 1, e = Tokens.size(); i < e; ++i) {
25120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    if (Tokens[i][0] == '$' &&
25220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        std::find(Tokens[i].begin(),
25320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar                  Tokens[i].end(), ':') != Tokens[i].end()) {
25420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      DEBUG({
25520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar          errs() << "warning: '" << Name << "': "
25620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar                 << "ignoring instruction; operand with attribute '"
2577417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar                 << Tokens[i] << "'\n";
25820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        });
25920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      return false;
26020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    }
26122be5225ff88ffaab83c36fa133e70586b91166dDaniel Dunbar
26220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    if (Tokens[i][0] == '$' && !OperandNames.insert(Tokens[i]).second) {
2637417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar      std::string Err = "'" + Name.str() + "': " +
2647417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar        "invalid assembler instruction; tied operand '" + Tokens[i].str() + "'";
2657417b761c2d88335bd77d38911ff8d323fc4a4f2Daniel Dunbar      throw TGError(CGI.TheDef->getLoc(), Err);
26620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    }
26720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  }
26822be5225ff88ffaab83c36fa133e70586b91166dDaniel Dunbar
26920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  return true;
27020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar}
27122be5225ff88ffaab83c36fa133e70586b91166dDaniel Dunbar
27220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbarnamespace {
27322be5225ff88ffaab83c36fa133e70586b91166dDaniel Dunbar
274a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar/// ClassInfo - Helper class for storing the information about a particular
275a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar/// class of operands which can be matched.
276a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarstruct ClassInfo {
277606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  enum ClassInfoKind {
278ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    /// Invalid kind, for use as a sentinel value.
279ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    Invalid = 0,
280ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
281ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    /// The class for a particular token.
282ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    Token,
283ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
284ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    /// The (first) register class, subsequent register classes are
285ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    /// RegisterClass0+1, and so on.
286ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    RegisterClass0,
287ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
288ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    /// The (first) user defined class, subsequent user defined classes are
289ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    /// UserClass0+1, and so on.
290ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    UserClass0 = 1<<16
291606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  };
292606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
293606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  /// Kind - The class kind, which is either a predefined kind, or (UserClass0 +
294606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  /// N) for the Nth user defined class.
295606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  unsigned Kind;
296a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
297ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// SuperClasses - The super classes of this class. Note that for simplicities
298ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// sake user operands only record their immediate super class, while register
299ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// operands include all superclasses.
300ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  std::vector<ClassInfo*> SuperClasses;
3015fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar
3026745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar  /// Name - The full class name, suitable for use in an enum.
303a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  std::string Name;
304a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
3056745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar  /// ClassName - The unadorned generic name for this class (e.g., Token).
3066745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar  std::string ClassName;
3076745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar
308a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// ValueName - The name of the value this class represents; for a token this
309a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// is the literal token string, for an operand it is the TableGen class (or
310a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// empty if this is a derived class).
311a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  std::string ValueName;
312a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
313a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// PredicateMethod - The name of the operand method to test whether the
314ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// operand matches this class; this is not valid for Token or register kinds.
315a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  std::string PredicateMethod;
316a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
317a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// RenderMethod - The name of the operand method to add this operand to an
318ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// MCInst; this is not valid for Token or register kinds.
319a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  std::string RenderMethod;
320606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
3218409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar  /// For register classes, the records for all the registers in this class.
3228409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar  std::set<Record*> Registers;
3238409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar
3248409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbarpublic:
325ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// isRegisterClass() - Check if this is a register class.
326ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  bool isRegisterClass() const {
327ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    return Kind >= RegisterClass0 && Kind < UserClass0;
328ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  }
329ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
3305fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar  /// isUserClass() - Check if this is a user defined class.
3315fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar  bool isUserClass() const {
3325fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar    return Kind >= UserClass0;
3335fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar  }
3345fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar
335ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// isRelatedTo - Check whether this class is "related" to \arg RHS. Classes
336ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// are related if they are in the same class hierarchy.
337ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  bool isRelatedTo(const ClassInfo &RHS) const {
338ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    // Tokens are only related to tokens.
339ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    if (Kind == Token || RHS.Kind == Token)
340ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      return Kind == Token && RHS.Kind == Token;
341ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
3428409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar    // Registers classes are only related to registers classes, and only if
3438409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar    // their intersection is non-empty.
3448409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar    if (isRegisterClass() || RHS.isRegisterClass()) {
3458409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar      if (!isRegisterClass() || !RHS.isRegisterClass())
3468409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar        return false;
3478409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar
3488409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar      std::set<Record*> Tmp;
3498409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar      std::insert_iterator< std::set<Record*> > II(Tmp, Tmp.begin());
3508409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar      std::set_intersection(Registers.begin(), Registers.end(),
3518409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar                            RHS.Registers.begin(), RHS.Registers.end(),
3528409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar                            II);
3538409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar
3548409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar      return !Tmp.empty();
3558409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar    }
356ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
357ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    // Otherwise we have two users operands; they are related if they are in the
358ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    // same class hierarchy.
3598409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar    //
3608409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar    // FIXME: This is an oversimplification, they should only be related if they
3618409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar    // intersect, however we don't have that information.
362ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    assert(isUserClass() && RHS.isUserClass() && "Unexpected class!");
363ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    const ClassInfo *Root = this;
364ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    while (!Root->SuperClasses.empty())
365ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      Root = Root->SuperClasses.front();
366ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
3678409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar    const ClassInfo *RHSRoot = &RHS;
368ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    while (!RHSRoot->SuperClasses.empty())
369ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      RHSRoot = RHSRoot->SuperClasses.front();
370ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
371ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    return Root == RHSRoot;
372ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  }
373ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
374ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// isSubsetOf - Test whether this class is a subset of \arg RHS;
375ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  bool isSubsetOf(const ClassInfo &RHS) const {
376ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    // This is a subset of RHS if it is the same class...
377ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    if (this == &RHS)
378ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      return true;
379ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
380ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    // ... or if any of its super classes are a subset of RHS.
381ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    for (std::vector<ClassInfo*>::const_iterator it = SuperClasses.begin(),
382ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar           ie = SuperClasses.end(); it != ie; ++it)
383ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      if ((*it)->isSubsetOf(RHS))
384ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        return true;
385ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
386ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    return false;
3875fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar  }
3885fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar
389606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  /// operator< - Compare two classes.
390606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  bool operator<(const ClassInfo &RHS) const {
391368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar    if (this == &RHS)
392368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar      return false;
393368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar
394ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    // Unrelated classes can be ordered by kind.
395ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    if (!isRelatedTo(RHS))
396606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar      return Kind < RHS.Kind;
397606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
398606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar    switch (Kind) {
3996745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar    case Invalid:
4006745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar      assert(0 && "Invalid kind!");
401606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar    case Token:
4025fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar      // Tokens are comparable by value.
403606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar      //
404606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar      // FIXME: Compare by enum value.
405606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar      return ValueName < RHS.ValueName;
406606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
407606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar    default:
408ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      // This class preceeds the RHS if it is a proper subset of the RHS.
409368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar      if (isSubsetOf(RHS))
4103472766f9eb7d66f234c390ce1b3a8b76f0ee9ceDuncan Sands        return true;
411368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar      if (RHS.isSubsetOf(*this))
4123472766f9eb7d66f234c390ce1b3a8b76f0ee9ceDuncan Sands        return false;
413368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar
414368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar      // Otherwise, order by name to ensure we have a total ordering.
415368a4565034b907943f5c0173574eb47939b74bfDaniel Dunbar      return ValueName < RHS.ValueName;
416606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar    }
417606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  }
418a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar};
419a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
420b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar/// InstructionInfo - Helper class for storing the necessary information for an
421b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar/// instruction which is capable of being matched.
42220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbarstruct InstructionInfo {
42320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  struct Operand {
424a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    /// The unique class instance this operand should match.
425a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    ClassInfo *Class;
426a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
427a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    /// The original operand this corresponds to, if any.
428fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer    const CodeGenInstruction::OperandInfo *OperandInfo;
42920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  };
43020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
43120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  /// InstrName - The target name for this instruction.
43220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  std::string InstrName;
43320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
43420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  /// Instr - The instruction this matches.
43520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  const CodeGenInstruction *Instr;
43620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
43720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  /// AsmString - The assembly string for this instruction (with variants
43820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  /// removed).
43920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  std::string AsmString;
44020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
44120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  /// Tokens - The tokenized assembly pattern that this instruction matches.
44220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  SmallVector<StringRef, 4> Tokens;
44320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
44420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  /// Operands - The operands that this instruction matches.
44520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  SmallVector<Operand, 4> Operands;
44620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
447b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  /// ConversionFnKind - The enum value which is passed to the generated
448b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  /// ConvertToMCInst to convert parsed operands into an MCInst for this
449b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  /// function.
450b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  std::string ConversionFnKind;
45120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
452606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  /// operator< - Compare two instructions.
453606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  bool operator<(const InstructionInfo &RHS) const {
454606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar    if (Operands.size() != RHS.Operands.size())
455606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar      return Operands.size() < RHS.Operands.size();
4562b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar
457db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar    // Compare lexicographically by operand. The matcher validates that other
458db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar    // orderings wouldn't be ambiguous using \see CouldMatchAmiguouslyWith().
459db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar    for (unsigned i = 0, e = Operands.size(); i != e; ++i) {
4602b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar      if (*Operands[i].Class < *RHS.Operands[i].Class)
4612b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar        return true;
462db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar      if (*RHS.Operands[i].Class < *Operands[i].Class)
463db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar        return false;
464db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar    }
465db2ddb5dc57319eff249144f1d9a553a3278d2e0Daniel Dunbar
4662b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    return false;
4672b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar  }
468606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
4692b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar  /// CouldMatchAmiguouslyWith - Check whether this instruction could
4702b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar  /// ambiguously match the same set of operands as \arg RHS (without being a
4712b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar  /// strictly superior match).
4722b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar  bool CouldMatchAmiguouslyWith(const InstructionInfo &RHS) {
4732b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    // The number of operands is unambiguous.
4742b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    if (Operands.size() != RHS.Operands.size())
4752b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar      return false;
476606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
4771402f0b2cac017ab997f71ab4909a2ccfea7be4bDaniel Dunbar    // Otherwise, make sure the ordering of the two instructions is unambiguous
4781402f0b2cac017ab997f71ab4909a2ccfea7be4bDaniel Dunbar    // by checking that either (a) a token or operand kind discriminates them,
4791402f0b2cac017ab997f71ab4909a2ccfea7be4bDaniel Dunbar    // or (b) the ordering among equivalent kinds is consistent.
4801402f0b2cac017ab997f71ab4909a2ccfea7be4bDaniel Dunbar
4812b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    // Tokens and operand kinds are unambiguous (assuming a correct target
4822b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    // specific parser).
483606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar    for (unsigned i = 0, e = Operands.size(); i != e; ++i)
4842b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar      if (Operands[i].Class->Kind != RHS.Operands[i].Class->Kind ||
4852b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar          Operands[i].Class->Kind == ClassInfo::Token)
4862b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar        if (*Operands[i].Class < *RHS.Operands[i].Class ||
4872b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar            *RHS.Operands[i].Class < *Operands[i].Class)
4882b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar          return false;
4892b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar
4902b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    // Otherwise, this operand could commute if all operands are equivalent, or
4912b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    // there is a pair of operands that compare less than and a pair that
4922b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    // compare greater than.
4932b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    bool HasLT = false, HasGT = false;
4942b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    for (unsigned i = 0, e = Operands.size(); i != e; ++i) {
495606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar      if (*Operands[i].Class < *RHS.Operands[i].Class)
4962b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar        HasLT = true;
4972b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar      if (*RHS.Operands[i].Class < *Operands[i].Class)
4982b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar        HasGT = true;
4992b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    }
500606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
5012b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    return !(HasLT ^ HasGT);
502606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  }
503606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
50420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbarpublic:
50520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  void dump();
50620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar};
50720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
508a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarclass AsmMatcherInfo {
509a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarpublic:
51059fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar  /// The tablegen AsmParser record.
51159fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar  Record *AsmParser;
51259fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar
51359fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar  /// The AsmParser "CommentDelimiter" value.
51459fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar  std::string CommentDelimiter;
51559fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar
51659fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar  /// The AsmParser "RegisterPrefix" value.
51759fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar  std::string RegisterPrefix;
51859fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar
519a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// The classes which are needed for matching.
520a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  std::vector<ClassInfo*> Classes;
521a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
522a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// The information on the instruction to match.
523a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  std::vector<InstructionInfo*> Instructions;
524a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
525ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// Map of Register records to their class information.
526ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  std::map<Record*, ClassInfo*> RegisterClasses;
527ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
528a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarprivate:
529a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// Map of token to class information which has already been constructed.
530a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  std::map<std::string, ClassInfo*> TokenClasses;
531a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
532ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// Map of RegisterClass records to their class information.
533ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  std::map<Record*, ClassInfo*> RegisterClassClasses;
534a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
535338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  /// Map of AsmOperandClass records to their class information.
536338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  std::map<Record*, ClassInfo*> AsmOperandClasses;
5376745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar
538a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarprivate:
539a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// getTokenClass - Lookup or create the class for the given token.
540b8d6e98e566724f58344d275a4bd675249bb713aChris Lattner  ClassInfo *getTokenClass(StringRef Token);
541a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
542a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// getOperandClass - Lookup or create the class for the given operand.
543b8d6e98e566724f58344d275a4bd675249bb713aChris Lattner  ClassInfo *getOperandClass(StringRef Token,
544a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar                             const CodeGenInstruction::OperandInfo &OI);
545a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
546ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// BuildRegisterClasses - Build the ClassInfo* instances for register
547ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// classes.
5481095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  void BuildRegisterClasses(CodeGenTarget &Target,
5491095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar                            std::set<std::string> &SingletonRegisterNames);
550ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
551ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// BuildOperandClasses - Build the ClassInfo* instances for user defined
552ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  /// operand classes.
553ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  void BuildOperandClasses(CodeGenTarget &Target);
554ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
555a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarpublic:
55659fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar  AsmMatcherInfo(Record *_AsmParser);
55759fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar
558a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  /// BuildInfo - Construct the various tables used during matching.
559a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  void BuildInfo(CodeGenTarget &Target);
560a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar};
561a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
56220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar}
56320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
56420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbarvoid InstructionInfo::dump() {
56520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  errs() << InstrName << " -- " << "flattened:\"" << AsmString << '\"'
56620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar         << ", tokens:[";
56720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  for (unsigned i = 0, e = Tokens.size(); i != e; ++i) {
56820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    errs() << Tokens[i];
56920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    if (i + 1 != e)
57020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      errs() << ", ";
57122be5225ff88ffaab83c36fa133e70586b91166dDaniel Dunbar  }
57220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  errs() << "]\n";
573a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
57420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  for (unsigned i = 0, e = Operands.size(); i != e; ++i) {
57520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    Operand &Op = Operands[i];
5766745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar    errs() << "  op[" << i << "] = " << Op.Class->ClassName << " - ";
577a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    if (Op.Class->Kind == ClassInfo::Token) {
57820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      errs() << '\"' << Tokens[i] << "\"\n";
57920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      continue;
58020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    }
581a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
5821095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    if (!Op.OperandInfo) {
5831095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      errs() << "(singleton register)\n";
5841095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      continue;
5851095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    }
5861095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
587fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer    const CodeGenInstruction::OperandInfo &OI = *Op.OperandInfo;
58820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    errs() << OI.Name << " " << OI.Rec->getName()
58920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar           << " (" << OI.MIOperandNo << ", " << OI.MINumOperands << ")\n";
59020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  }
59120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar}
592a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
593b8d6e98e566724f58344d275a4bd675249bb713aChris Lattnerstatic std::string getEnumNameForToken(StringRef Str) {
594a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  std::string Res;
595a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
596a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  for (StringRef::iterator it = Str.begin(), ie = Str.end(); it != ie; ++it) {
597a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    switch (*it) {
598a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    case '*': Res += "_STAR_"; break;
599a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    case '%': Res += "_PCT_"; break;
600a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    case ':': Res += "_COLON_"; break;
601a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
602a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    default:
603a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      if (isalnum(*it))  {
604a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar        Res += *it;
605a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      } else {
606a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar        Res += "_" + utostr((unsigned) *it) + "_";
607a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      }
608a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    }
609a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  }
61020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
611a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  return Res;
612a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar}
613a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
6141095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar/// getRegisterRecord - Get the register record for \arg name, or 0.
615b8d6e98e566724f58344d275a4bd675249bb713aChris Lattnerstatic Record *getRegisterRecord(CodeGenTarget &Target, StringRef Name) {
6161095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  for (unsigned i = 0, e = Target.getRegisters().size(); i != e; ++i) {
6171095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    const CodeGenRegister &Reg = Target.getRegisters()[i];
6181095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    if (Name == Reg.TheDef->getValueAsString("AsmName"))
6191095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      return Reg.TheDef;
6201095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  }
6211095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
6221095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  return 0;
6231095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar}
6241095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
625b8d6e98e566724f58344d275a4bd675249bb713aChris LattnerClassInfo *AsmMatcherInfo::getTokenClass(StringRef Token) {
626a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  ClassInfo *&Entry = TokenClasses[Token];
627a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
628a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  if (!Entry) {
629a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    Entry = new ClassInfo();
630a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    Entry->Kind = ClassInfo::Token;
6316745d42e8e51ba6b9546d6fa62e0c1b1e0f3982aDaniel Dunbar    Entry->ClassName = "Token";
632a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    Entry->Name = "MCK_" + getEnumNameForToken(Token);
633a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    Entry->ValueName = Token;
634a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    Entry->PredicateMethod = "<invalid>";
635a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    Entry->RenderMethod = "<invalid>";
636a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    Classes.push_back(Entry);
637a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  }
638a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
639a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  return Entry;
640a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar}
641a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
642a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel DunbarClassInfo *
643b8d6e98e566724f58344d275a4bd675249bb713aChris LattnerAsmMatcherInfo::getOperandClass(StringRef Token,
644a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar                                const CodeGenInstruction::OperandInfo &OI) {
645ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  if (OI.Rec->isSubClassOf("RegisterClass")) {
646ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    ClassInfo *CI = RegisterClassClasses[OI.Rec];
647ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
648ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    if (!CI) {
649ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      PrintError(OI.Rec->getLoc(), "register class has no class info!");
650ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      throw std::string("ERROR: Missing register class!");
651ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    }
652ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
653ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    return CI;
654ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  }
655338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar
656338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  assert(OI.Rec->isSubClassOf("Operand") && "Unexpected operand!");
657338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  Record *MatchClass = OI.Rec->getValueAsDef("ParserMatchClass");
658338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  ClassInfo *CI = AsmOperandClasses[MatchClass];
6595fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar
660338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  if (!CI) {
661338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar    PrintError(OI.Rec->getLoc(), "operand has no match class!");
662338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar    throw std::string("ERROR: Missing match class!");
663a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  }
664a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
665338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  return CI;
666338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar}
667338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar
6681095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbarvoid AsmMatcherInfo::BuildRegisterClasses(CodeGenTarget &Target,
6691095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar                                          std::set<std::string>
6701095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar                                            &SingletonRegisterNames) {
671ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  std::vector<CodeGenRegisterClass> RegisterClasses;
672ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  std::vector<CodeGenRegister> Registers;
673338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar
674ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  RegisterClasses = Target.getRegisterClasses();
675ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  Registers = Target.getRegisters();
676338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar
677ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // The register sets used for matching.
678ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  std::set< std::set<Record*> > RegisterSets;
679ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
680ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // Gather the defined sets.
681ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  for (std::vector<CodeGenRegisterClass>::iterator it = RegisterClasses.begin(),
682ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar         ie = RegisterClasses.end(); it != ie; ++it)
683ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    RegisterSets.insert(std::set<Record*>(it->Elements.begin(),
684ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar                                          it->Elements.end()));
6851095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
6861095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  // Add any required singleton sets.
6871095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  for (std::set<std::string>::iterator it = SingletonRegisterNames.begin(),
6881095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar         ie = SingletonRegisterNames.end(); it != ie; ++it)
6891095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    if (Record *Rec = getRegisterRecord(Target, *it))
6901095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      RegisterSets.insert(std::set<Record*>(&Rec, &Rec + 1));
6911095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
692ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // Introduce derived sets where necessary (when a register does not determine
693ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // a unique register set class), and build the mapping of registers to the set
694ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // they should classify to.
695ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  std::map<Record*, std::set<Record*> > RegisterMap;
696ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  for (std::vector<CodeGenRegister>::iterator it = Registers.begin(),
697ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar         ie = Registers.end(); it != ie; ++it) {
698ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    CodeGenRegister &CGR = *it;
699ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    // Compute the intersection of all sets containing this register.
700ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    std::set<Record*> ContainingSet;
701ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
702ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    for (std::set< std::set<Record*> >::iterator it = RegisterSets.begin(),
703ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar           ie = RegisterSets.end(); it != ie; ++it) {
704ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      if (!it->count(CGR.TheDef))
705ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        continue;
706ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
707ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      if (ContainingSet.empty()) {
708ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        ContainingSet = *it;
709ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      } else {
710ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        std::set<Record*> Tmp;
711ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        std::swap(Tmp, ContainingSet);
712ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        std::insert_iterator< std::set<Record*> > II(ContainingSet,
713ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar                                                     ContainingSet.begin());
714ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        std::set_intersection(Tmp.begin(), Tmp.end(), it->begin(), it->end(),
715ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar                              II);
716ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      }
717ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    }
718ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
719ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    if (!ContainingSet.empty()) {
720ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      RegisterSets.insert(ContainingSet);
721ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      RegisterMap.insert(std::make_pair(CGR.TheDef, ContainingSet));
722ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    }
723ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  }
724ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
725ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // Construct the register classes.
726ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  std::map<std::set<Record*>, ClassInfo*> RegisterSetClasses;
727ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  unsigned Index = 0;
728ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  for (std::set< std::set<Record*> >::iterator it = RegisterSets.begin(),
729ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar         ie = RegisterSets.end(); it != ie; ++it, ++Index) {
730ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    ClassInfo *CI = new ClassInfo();
731ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    CI->Kind = ClassInfo::RegisterClass0 + Index;
732ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    CI->ClassName = "Reg" + utostr(Index);
733ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    CI->Name = "MCK_Reg" + utostr(Index);
734ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    CI->ValueName = "";
735ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    CI->PredicateMethod = ""; // unused
736ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    CI->RenderMethod = "addRegOperands";
7378409bfbbc306bc051fbd8b049804103ca7df2f63Daniel Dunbar    CI->Registers = *it;
738ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    Classes.push_back(CI);
739ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    RegisterSetClasses.insert(std::make_pair(*it, CI));
740ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  }
741ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
742ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // Find the superclasses; we could compute only the subgroup lattice edges,
743ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // but there isn't really a point.
744ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  for (std::set< std::set<Record*> >::iterator it = RegisterSets.begin(),
745ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar         ie = RegisterSets.end(); it != ie; ++it) {
746ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    ClassInfo *CI = RegisterSetClasses[*it];
747ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    for (std::set< std::set<Record*> >::iterator it2 = RegisterSets.begin(),
748ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar           ie2 = RegisterSets.end(); it2 != ie2; ++it2)
749ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      if (*it != *it2 &&
750ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar          std::includes(it2->begin(), it2->end(), it->begin(), it->end()))
751ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        CI->SuperClasses.push_back(RegisterSetClasses[*it2]);
752ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  }
753ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
754ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // Name the register classes which correspond to a user defined RegisterClass.
755ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  for (std::vector<CodeGenRegisterClass>::iterator it = RegisterClasses.begin(),
756ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar         ie = RegisterClasses.end(); it != ie; ++it) {
757ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    ClassInfo *CI = RegisterSetClasses[std::set<Record*>(it->Elements.begin(),
758ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar                                                         it->Elements.end())];
759ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    if (CI->ValueName.empty()) {
760ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      CI->ClassName = it->getName();
761ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      CI->Name = "MCK_" + it->getName();
762ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      CI->ValueName = it->getName();
763ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    } else
764ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      CI->ValueName = CI->ValueName + "," + it->getName();
765ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
766ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    RegisterClassClasses.insert(std::make_pair(it->TheDef, CI));
767ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  }
768ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
769ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // Populate the map for individual registers.
770ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  for (std::map<Record*, std::set<Record*> >::iterator it = RegisterMap.begin(),
771ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar         ie = RegisterMap.end(); it != ie; ++it)
772ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    this->RegisterClasses[it->first] = RegisterSetClasses[it->second];
7731095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
7741095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  // Name the register classes which correspond to singleton registers.
7751095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  for (std::set<std::string>::iterator it = SingletonRegisterNames.begin(),
7761095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar         ie = SingletonRegisterNames.end(); it != ie; ++it) {
7771095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    if (Record *Rec = getRegisterRecord(Target, *it)) {
7781095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      ClassInfo *CI = this->RegisterClasses[Rec];
7791095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      assert(CI && "Missing singleton register class info!");
7801095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
7811095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      if (CI->ValueName.empty()) {
7821095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        CI->ClassName = Rec->getName();
7831095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        CI->Name = "MCK_" + Rec->getName();
7841095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        CI->ValueName = Rec->getName();
7851095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      } else
7861095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        CI->ValueName = CI->ValueName + "," + Rec->getName();
7871095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    }
7881095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  }
789ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar}
790ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
791ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbarvoid AsmMatcherInfo::BuildOperandClasses(CodeGenTarget &Target) {
792338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  std::vector<Record*> AsmOperands;
793338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  AsmOperands = Records.getAllDerivedDefinitions("AsmOperandClass");
794a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar
795a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar  // Pre-populate AsmOperandClasses map.
796a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar  for (std::vector<Record*>::iterator it = AsmOperands.begin(),
797a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar         ie = AsmOperands.end(); it != ie; ++it)
798a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar    AsmOperandClasses[*it] = new ClassInfo();
799a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar
800338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  unsigned Index = 0;
801338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar  for (std::vector<Record*>::iterator it = AsmOperands.begin(),
802338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar         ie = AsmOperands.end(); it != ie; ++it, ++Index) {
803a2f5e00347641d1b46ce4f65bf9378fecce9be14Daniel Dunbar    ClassInfo *CI = AsmOperandClasses[*it];
804338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar    CI->Kind = ClassInfo::UserClass0 + Index;
805338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar
80654ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar    ListInit *Supers = (*it)->getValueAsListInit("SuperClasses");
80754ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar    for (unsigned i = 0, e = Supers->getSize(); i != e; ++i) {
80854ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar      DefInit *DI = dynamic_cast<DefInit*>(Supers->getElement(i));
80954ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar      if (!DI) {
81054ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar        PrintError((*it)->getLoc(), "Invalid super class reference!");
81154ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar        continue;
81254ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar      }
81354ddf3d9c756881021afcb869a6ec892a21aef5bDaniel Dunbar
814ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      ClassInfo *SC = AsmOperandClasses[DI->getDef()];
815ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      if (!SC)
816338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar        PrintError((*it)->getLoc(), "Invalid super class reference!");
817ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      else
818ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        CI->SuperClasses.push_back(SC);
819a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    }
820338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar    CI->ClassName = (*it)->getValueAsString("Name");
821338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar    CI->Name = "MCK_" + CI->ClassName;
822338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar    CI->ValueName = (*it)->getName();
8235c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar
8245c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar    // Get or construct the predicate method name.
8255c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar    Init *PMName = (*it)->getValueInit("PredicateMethod");
8265c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar    if (StringInit *SI = dynamic_cast<StringInit*>(PMName)) {
8275c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar      CI->PredicateMethod = SI->getValue();
8285c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar    } else {
8295c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar      assert(dynamic_cast<UnsetInit*>(PMName) &&
8305c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar             "Unexpected PredicateMethod field!");
8315c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar      CI->PredicateMethod = "is" + CI->ClassName;
8325c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar    }
8335c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar
8345c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar    // Get or construct the render method name.
8355c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar    Init *RMName = (*it)->getValueInit("RenderMethod");
8365c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar    if (StringInit *SI = dynamic_cast<StringInit*>(RMName)) {
8375c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar      CI->RenderMethod = SI->getValue();
8385c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar    } else {
8395c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar      assert(dynamic_cast<UnsetInit*>(RMName) &&
8405c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar             "Unexpected RenderMethod field!");
8415c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar      CI->RenderMethod = "add" + CI->ClassName + "Operands";
8425c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar    }
8435c468e3d7006e854fd41b29d5539a7adcee53904Daniel Dunbar
844338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar    AsmOperandClasses[*it] = CI;
845338825c1928b956b2cbcc2c165a60afddd100398Daniel Dunbar    Classes.push_back(CI);
846a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  }
847ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar}
848ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
84959fc42debd571bbafc52c20bc418fdc3f4d00188Daniel DunbarAsmMatcherInfo::AsmMatcherInfo(Record *_AsmParser)
85059fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar  : AsmParser(_AsmParser),
85159fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar    CommentDelimiter(AsmParser->getValueAsString("CommentDelimiter")),
85259fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar    RegisterPrefix(AsmParser->getValueAsString("RegisterPrefix"))
85359fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar{
85459fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar}
85559fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar
856ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbarvoid AsmMatcherInfo::BuildInfo(CodeGenTarget &Target) {
8571095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  // Parse the instructions; we need to do this first so that we can gather the
8581095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  // singleton register classes.
8591095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  std::set<std::string> SingletonRegisterNames;
860b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner
861f65027842e82027dd6e8020586a299aaa548e355Chris Lattner  const std::vector<const CodeGenInstruction*> &InstrList =
862f65027842e82027dd6e8020586a299aaa548e355Chris Lattner    Target.getInstructionsByEnumValue();
863b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner
864b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner  for (unsigned i = 0, e = InstrList.size(); i != e; ++i) {
865b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner    const CodeGenInstruction &CGI = *InstrList[i];
866a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
867b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner    if (!StringRef(CGI.TheDef->getName()).startswith(MatchPrefix))
86853a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar      continue;
86953a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar
870b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner    OwningPtr<InstructionInfo> II(new InstructionInfo());
87120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
872b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner    II->InstrName = CGI.TheDef->getName();
873b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner    II->Instr = &CGI;
87420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    II->AsmString = FlattenVariants(CGI.AsmString, 0);
87520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
87659fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar    // Remove comments from the asm string.
87759fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar    if (!CommentDelimiter.empty()) {
87859fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar      size_t Idx = StringRef(II->AsmString).find(CommentDelimiter);
87959fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar      if (Idx != StringRef::npos)
88059fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar        II->AsmString = II->AsmString.substr(0, Idx);
88159fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar    }
88259fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar
88320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    TokenizeAsmString(II->AsmString, II->Tokens);
884a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
88520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    // Ignore instructions which shouldn't be matched.
886b61e09de6d0cd7241ddc6dee3efef416552eec3bChris Lattner    if (!IsAssemblerInstruction(CGI.TheDef->getName(), CGI, II->Tokens))
887a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar      continue;
888a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
8891095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    // Collect singleton registers, if used.
8901095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    if (!RegisterPrefix.empty()) {
8911095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      for (unsigned i = 0, e = II->Tokens.size(); i != e; ++i) {
8921095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        if (II->Tokens[i].startswith(RegisterPrefix)) {
8931095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar          StringRef RegName = II->Tokens[i].substr(RegisterPrefix.size());
8941095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar          Record *Rec = getRegisterRecord(Target, RegName);
8951095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
8961095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar          if (!Rec) {
8971095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar            std::string Err = "unable to find register for '" + RegName.str() +
8981095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar              "' (which matches register prefix)";
8991095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar            throw TGError(CGI.TheDef->getLoc(), Err);
9001095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar          }
9011095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
9021095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar          SingletonRegisterNames.insert(RegName);
9031095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        }
9041095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      }
9051095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    }
9061095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
9071095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    Instructions.push_back(II.take());
9081095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  }
9091095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
9101095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  // Build info for the register classes.
9111095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  BuildRegisterClasses(Target, SingletonRegisterNames);
9121095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
9131095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  // Build info for the user defined assembly operand classes.
9141095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  BuildOperandClasses(Target);
9151095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
9161095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  // Build the instruction information.
9171095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  for (std::vector<InstructionInfo*>::iterator it = Instructions.begin(),
9181095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar         ie = Instructions.end(); it != ie; ++it) {
9191095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar    InstructionInfo *II = *it;
9201095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
92120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    for (unsigned i = 0, e = II->Tokens.size(); i != e; ++i) {
92220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      StringRef Token = II->Tokens[i];
92320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
9241095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      // Check for singleton registers.
9251095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      if (!RegisterPrefix.empty() && Token.startswith(RegisterPrefix)) {
9261095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        StringRef RegName = II->Tokens[i].substr(RegisterPrefix.size());
9271095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        InstructionInfo::Operand Op;
9281095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        Op.Class = RegisterClasses[getRegisterRecord(Target, RegName)];
9291095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        Op.OperandInfo = 0;
9301095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        assert(Op.Class && Op.Class->Registers.size() == 1 &&
9311095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar               "Unexpected class for singleton register");
9321095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        II->Operands.push_back(Op);
9331095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        continue;
9341095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar      }
9351095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
93620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      // Check for simple tokens.
93720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      if (Token[0] != '$') {
93820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        InstructionInfo::Operand Op;
939a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar        Op.Class = getTokenClass(Token);
940fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer        Op.OperandInfo = 0;
94120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        II->Operands.push_back(Op);
94220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        continue;
94320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      }
944a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
94520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      // Otherwise this is an operand reference.
94620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      StringRef OperandName;
94720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      if (Token[1] == '{')
94820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        OperandName = Token.substr(2, Token.size() - 3);
94920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      else
95020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        OperandName = Token.substr(1);
95120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
95220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      // Map this token to an operand. FIXME: Move elsewhere.
95320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      unsigned Idx;
95420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      try {
9551095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        Idx = II->Instr->getOperandNamed(OperandName);
95620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      } catch(...) {
9571095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar        throw std::string("error: unable to find operand: '" +
9581095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar                          OperandName.str() + "'");
95920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      }
960a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
961af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      // FIXME: This is annoying, the named operand may be tied (e.g.,
962af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      // XCHG8rm). What we want is the untied operand, which we now have to
963af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      // grovel for. Only worry about this for single entry operands, we have to
964af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      // clean this up anyway.
965af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      const CodeGenInstruction::OperandInfo *OI = &II->Instr->OperandList[Idx];
966af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      if (OI->Constraints[0].isTied()) {
967af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        unsigned TiedOp = OI->Constraints[0].getTiedOperand();
968af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar
969af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        // The tied operand index is an MIOperand index, find the operand that
970af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        // contains it.
971af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        for (unsigned i = 0, e = II->Instr->OperandList.size(); i != e; ++i) {
972af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar          if (II->Instr->OperandList[i].MIOperandNo == TiedOp) {
973af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar            OI = &II->Instr->OperandList[i];
974af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar            break;
975af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar          }
976af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        }
977af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar
978af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        assert(OI && "Unable to find tied operand target!");
979af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      }
980af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar
981a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      InstructionInfo::Operand Op;
982af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      Op.Class = getOperandClass(Token, *OI);
983af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      Op.OperandInfo = OI;
98420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      II->Operands.push_back(Op);
98553a7f16dcc96de71fa46f641c59470586548081eDaniel Dunbar    }
98620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  }
9875fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar
9885fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar  // Reorder classes so that classes preceed super classes.
9895fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar  std::sort(Classes.begin(), Classes.end(), less_ptr<ClassInfo>());
99020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar}
991a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
9923b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbarstatic std::pair<unsigned, unsigned> *
9933b6910dcd466bf091b386bb136f42522c89473f7Daniel DunbarGetTiedOperandAtIndex(SmallVectorImpl<std::pair<unsigned, unsigned> > &List,
9943b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar                      unsigned Index) {
9953b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar  for (unsigned i = 0, e = List.size(); i != e; ++i)
9963b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar    if (Index == List[i].first)
9973b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar      return &List[i];
9983b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar
9993b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar  return 0;
10003b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar}
10013b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar
1002606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbarstatic void EmitConvertToMCInst(CodeGenTarget &Target,
1003606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar                                std::vector<InstructionInfo*> &Infos,
1004606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar                                raw_ostream &OS) {
1005b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  // Write the convert function to a separate stream, so we can drop it after
1006b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  // the enum.
1007b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  std::string ConvertFnBody;
1008b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  raw_string_ostream CvtOS(ConvertFnBody);
1009b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
101020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  // Function we have already generated.
101120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  std::set<std::string> GeneratedFns;
101220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
1013b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  // Start the unified conversion function.
1014b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
10158cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar  CvtOS << "static void ConvertToMCInst(ConversionKind Kind, MCInst &Inst, "
1016b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar        << "unsigned Opcode,\n"
10179898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner        << "                      const SmallVectorImpl<MCParsedAsmOperand*"
10189898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner        << "> &Operands) {\n";
1019b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  CvtOS << "  Inst.setOpcode(Opcode);\n";
1020b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  CvtOS << "  switch (Kind) {\n";
1021b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  CvtOS << "  default:\n";
1022b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
1023b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  // Start the enum, which we will generate inline.
1024b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
1025b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  OS << "// Unified function for converting operants to MCInst instances.\n\n";
1026b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  OS << "enum ConversionKind {\n";
1027b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
10289898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner  // TargetOperandClass - This is the target's operand class, like X86Operand.
10299898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner  std::string TargetOperandClass = Target.getName() + "Operand";
10309898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner
103120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  for (std::vector<InstructionInfo*>::const_iterator it = Infos.begin(),
103220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar         ie = Infos.end(); it != ie; ++it) {
103320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    InstructionInfo &II = **it;
103420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
103520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    // Order the (class) operands by the order to convert them into an MCInst.
103620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    SmallVector<std::pair<unsigned, unsigned>, 4> MIOperandList;
103720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    for (unsigned i = 0, e = II.Operands.size(); i != e; ++i) {
103820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      InstructionInfo::Operand &Op = II.Operands[i];
1039fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer      if (Op.OperandInfo)
1040fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer        MIOperandList.push_back(std::make_pair(Op.OperandInfo->MIOperandNo, i));
104120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    }
1042af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar
1043af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar    // Find any tied operands.
1044af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar    SmallVector<std::pair<unsigned, unsigned>, 4> TiedOperands;
1045af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar    for (unsigned i = 0, e = II.Instr->OperandList.size(); i != e; ++i) {
1046af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      const CodeGenInstruction::OperandInfo &OpInfo = II.Instr->OperandList[i];
1047af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      for (unsigned j = 0, e = OpInfo.Constraints.size(); j != e; ++j) {
1048af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        const CodeGenInstruction::ConstraintInfo &CI = OpInfo.Constraints[j];
1049af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        if (CI.isTied())
1050af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar          TiedOperands.push_back(std::make_pair(OpInfo.MIOperandNo + j,
1051af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar                                                CI.getTiedOperand()));
1052af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      }
1053af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar    }
1054af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar
105520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    std::sort(MIOperandList.begin(), MIOperandList.end());
1056a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
105720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    // Compute the total number of operands.
1058a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    unsigned NumMIOperands = 0;
105920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    for (unsigned i = 0, e = II.Instr->OperandList.size(); i != e; ++i) {
106020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      const CodeGenInstruction::OperandInfo &OI = II.Instr->OperandList[i];
1061a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar      NumMIOperands = std::max(NumMIOperands,
1062a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar                               OI.MIOperandNo + OI.MINumOperands);
1063a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    }
1064a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
106520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    // Build the conversion function signature.
106620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    std::string Signature = "Convert";
106720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    unsigned CurIndex = 0;
106820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    for (unsigned i = 0, e = MIOperandList.size(); i != e; ++i) {
106920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      InstructionInfo::Operand &Op = II.Operands[MIOperandList[i].second];
1070fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer      assert(CurIndex <= Op.OperandInfo->MIOperandNo &&
107120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar             "Duplicate match for instruction operand!");
107220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
107320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      // Skip operands which weren't matched by anything, this occurs when the
107420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      // .td file encodes "implicit" operands as explicit ones.
107520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      //
107620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      // FIXME: This should be removed from the MCInst structure.
1077af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      for (; CurIndex != Op.OperandInfo->MIOperandNo; ++CurIndex) {
10783b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        std::pair<unsigned, unsigned> *Tie = GetTiedOperandAtIndex(TiedOperands,
10793b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar                                                                   CurIndex);
10803b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        if (!Tie)
1081af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar          Signature += "__Imp";
1082af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        else
10833b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar          Signature += "__Tie" + utostr(Tie->second);
1084af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      }
1085af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar
1086af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      Signature += "__";
1087a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
1088ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      // Registers are always converted the same, don't duplicate the conversion
1089ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      // function based on them.
1090ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      //
1091ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      // FIXME: We could generalize this based on the render method, if it
1092ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      // mattered.
1093ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      if (Op.Class->isRegisterClass())
1094ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        Signature += "Reg";
1095ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      else
1096ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        Signature += Op.Class->ClassName;
1097fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer      Signature += utostr(Op.OperandInfo->MINumOperands);
1098b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar      Signature += "_" + utostr(MIOperandList[i].second);
1099b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
1100fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer      CurIndex += Op.OperandInfo->MINumOperands;
110120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    }
1102a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
110320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    // Add any trailing implicit operands.
11043b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar    for (; CurIndex != NumMIOperands; ++CurIndex) {
11053b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar      std::pair<unsigned, unsigned> *Tie = GetTiedOperandAtIndex(TiedOperands,
11063b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar                                                                 CurIndex);
11073b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar      if (!Tie)
11083b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        Signature += "__Imp";
11093b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar      else
11103b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        Signature += "__Tie" + utostr(Tie->second);
11113b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar    }
1112a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
1113b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar    II.ConversionFnKind = Signature;
1114a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
1115b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar    // Check if we have already generated this signature.
111620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    if (!GeneratedFns.insert(Signature).second)
111720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      continue;
1118a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
111920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    // If not, emit it now.
1120b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
1121b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar    // Add to the enum list.
1122b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar    OS << "  " << Signature << ",\n";
1123b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
1124b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar    // And to the convert function.
1125b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar    CvtOS << "  case " << Signature << ":\n";
112620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    CurIndex = 0;
112720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    for (unsigned i = 0, e = MIOperandList.size(); i != e; ++i) {
112820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      InstructionInfo::Operand &Op = II.Operands[MIOperandList[i].second];
112920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
113020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      // Add the implicit operands.
1131af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      for (; CurIndex != Op.OperandInfo->MIOperandNo; ++CurIndex) {
1132af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        // See if this is a tied operand.
11333b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        std::pair<unsigned, unsigned> *Tie = GetTiedOperandAtIndex(TiedOperands,
11343b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar                                                                   CurIndex);
1135af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar
11363b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        if (!Tie) {
1137af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar          // If not, this is some implicit operand. Just assume it is a register
1138af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar          // for now.
1139af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar          CvtOS << "    Inst.addOperand(MCOperand::CreateReg(0));\n";
1140af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        } else {
1141af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar          // Copy the tied operand.
11423b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar          assert(Tie->first>Tie->second && "Tied operand preceeds its target!");
1143af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar          CvtOS << "    Inst.addOperand(Inst.getOperand("
11443b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar                << Tie->second << "));\n";
1145af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar        }
1146af61681cedb42a0e9f84560316d74f4ddeb2d2b6Daniel Dunbar      }
114720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
11489898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner      CvtOS << "    ((" << TargetOperandClass << "*)Operands["
11499898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner         << MIOperandList[i].second
11509898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner         << "])->" << Op.Class->RenderMethod
1151fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer         << "(Inst, " << Op.OperandInfo->MINumOperands << ");\n";
1152fa1165abb8fec9383d640b0696a9f397b9153bafBenjamin Kramer      CurIndex += Op.OperandInfo->MINumOperands;
1153a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar    }
115420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
115520927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    // And add trailing implicit operands.
11563b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar    for (; CurIndex != NumMIOperands; ++CurIndex) {
11573b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar      std::pair<unsigned, unsigned> *Tie = GetTiedOperandAtIndex(TiedOperands,
11583b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar                                                                 CurIndex);
11593b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar
11603b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar      if (!Tie) {
11613b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        // If not, this is some implicit operand. Just assume it is a register
11623b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        // for now.
11633b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        CvtOS << "    Inst.addOperand(MCOperand::CreateReg(0));\n";
11643b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar      } else {
11653b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        // Copy the tied operand.
11663b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        assert(Tie->first>Tie->second && "Tied operand preceeds its target!");
11673b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar        CvtOS << "    Inst.addOperand(Inst.getOperand("
11683b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar              << Tie->second << "));\n";
11693b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar      }
11703b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar    }
11713b6910dcd466bf091b386bb136f42522c89473f7Daniel Dunbar
11728cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar    CvtOS << "    return;\n";
1173a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  }
1174b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
1175b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  // Finish the convert function.
1176b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
1177b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  CvtOS << "  }\n";
1178b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  CvtOS << "}\n\n";
1179b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
1180b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  // Finish the enum, and drop the convert function after it.
1181b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
1182b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  OS << "  NumConversionVariants\n";
1183b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  OS << "};\n\n";
1184b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar
1185b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  OS << CvtOS.str();
118620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar}
118720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
1188a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar/// EmitMatchClassEnumeration - Emit the enumeration for match class kinds.
1189a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarstatic void EmitMatchClassEnumeration(CodeGenTarget &Target,
1190a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar                                      std::vector<ClassInfo*> &Infos,
1191a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar                                      raw_ostream &OS) {
1192a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "namespace {\n\n";
1193a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1194a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "/// MatchClassKind - The kinds of classes which participate in\n"
1195a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar     << "/// instruction matching.\n";
1196a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "enum MatchClassKind {\n";
1197a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  InvalidMatchClass = 0,\n";
1198a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  for (std::vector<ClassInfo*>::iterator it = Infos.begin(),
1199a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar         ie = Infos.end(); it != ie; ++it) {
1200a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    ClassInfo &CI = **it;
1201a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    OS << "  " << CI.Name << ", // ";
1202a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    if (CI.Kind == ClassInfo::Token) {
1203a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      OS << "'" << CI.ValueName << "'\n";
1204ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    } else if (CI.isRegisterClass()) {
1205a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      if (!CI.ValueName.empty())
1206a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar        OS << "register class '" << CI.ValueName << "'\n";
1207a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      else
1208a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar        OS << "derived register class\n";
1209a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    } else {
1210a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      OS << "user defined class '" << CI.ValueName << "'\n";
1211a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    }
1212a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  }
1213a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  NumMatchClassKinds\n";
1214a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "};\n\n";
1215a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1216a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "}\n\n";
1217a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar}
1218a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1219a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar/// EmitClassifyOperand - Emit the function to classify an operand.
1220a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbarstatic void EmitClassifyOperand(CodeGenTarget &Target,
1221ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar                                AsmMatcherInfo &Info,
1222a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar                                raw_ostream &OS) {
12239898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner  OS << "static MatchClassKind ClassifyOperand(MCParsedAsmOperand *GOp) {\n"
12249898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner     << "  " << Target.getName() << "Operand &Operand = *("
12259898671a74d3fc924347e679c45edaa685b3fe6eChris Lattner     << Target.getName() << "Operand*)GOp;\n";
1226ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
1227ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // Classify tokens.
1228a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  if (Operand.isToken())\n";
1229a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "    return MatchTokenString(Operand.getToken());\n\n";
1230ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
1231ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // Classify registers.
1232ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  //
1233ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // FIXME: Don't hardcode isReg, getReg.
1234ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  OS << "  if (Operand.isReg()) {\n";
1235ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  OS << "    switch (Operand.getReg()) {\n";
1236ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  OS << "    default: return InvalidMatchClass;\n";
1237ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  for (std::map<Record*, ClassInfo*>::iterator
1238ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar         it = Info.RegisterClasses.begin(), ie = Info.RegisterClasses.end();
1239ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar       it != ie; ++it)
1240ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    OS << "    case " << Target.getName() << "::"
1241ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar       << it->first->getName() << ": return " << it->second->Name << ";\n";
1242ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  OS << "    }\n";
1243ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  OS << "  }\n\n";
1244ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
1245ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  // Classify user defined operands.
1246ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  for (std::vector<ClassInfo*>::iterator it = Info.Classes.begin(),
1247ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar         ie = Info.Classes.end(); it != ie; ++it) {
1248a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    ClassInfo &CI = **it;
1249a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1250ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    if (!CI.isUserClass())
1251ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      continue;
1252ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
1253ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    OS << "  // '" << CI.ClassName << "' class";
1254ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    if (!CI.SuperClasses.empty()) {
1255ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      OS << ", subclass of ";
1256ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      for (unsigned i = 0, e = CI.SuperClasses.size(); i != e; ++i) {
1257ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        if (i) OS << ", ";
1258ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        OS << "'" << CI.SuperClasses[i]->ClassName << "'";
1259ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        assert(CI < *CI.SuperClasses[i] && "Invalid class relation!");
12605fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar      }
1261ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    }
1262ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    OS << "\n";
12635fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar
1264ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    OS << "  if (Operand." << CI.PredicateMethod << "()) {\n";
12655fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar
1266ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    // Validate subclass relationships.
1267ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    if (!CI.SuperClasses.empty()) {
1268ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      for (unsigned i = 0, e = CI.SuperClasses.size(); i != e; ++i)
1269ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        OS << "    assert(Operand." << CI.SuperClasses[i]->PredicateMethod
12705fe6338ac859707f797bf6db6d043bb5f4d944a1Daniel Dunbar           << "() && \"Invalid class relationship!\");\n";
1271a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    }
1272ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar
1273ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    OS << "    return " << CI.Name << ";\n";
1274ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar    OS << "  }\n\n";
1275a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  }
1276a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  return InvalidMatchClass;\n";
1277a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "}\n\n";
1278a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar}
1279a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1280fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar/// EmitIsSubclass - Emit the subclass predicate function.
1281fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbarstatic void EmitIsSubclass(CodeGenTarget &Target,
1282fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar                           std::vector<ClassInfo*> &Infos,
1283fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar                           raw_ostream &OS) {
1284fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  OS << "/// IsSubclass - Compute whether \\arg A is a subclass of \\arg B.\n";
1285fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  OS << "static bool IsSubclass(MatchClassKind A, MatchClassKind B) {\n";
1286fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  OS << "  if (A == B)\n";
1287fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  OS << "    return true;\n\n";
1288fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar
1289fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  OS << "  switch (A) {\n";
1290fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  OS << "  default:\n";
1291fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  OS << "    return false;\n";
1292fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  for (std::vector<ClassInfo*>::iterator it = Infos.begin(),
1293fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar         ie = Infos.end(); it != ie; ++it) {
1294fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar    ClassInfo &A = **it;
1295fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar
1296fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar    if (A.Kind != ClassInfo::Token) {
1297fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar      std::vector<StringRef> SuperClasses;
1298fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar      for (std::vector<ClassInfo*>::iterator it = Infos.begin(),
1299fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar             ie = Infos.end(); it != ie; ++it) {
1300fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar        ClassInfo &B = **it;
1301fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar
1302ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        if (&A != &B && A.isSubsetOf(B))
1303fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar          SuperClasses.push_back(B.Name);
1304fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar      }
1305fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar
1306fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar      if (SuperClasses.empty())
1307fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar        continue;
1308fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar
1309fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar      OS << "\n  case " << A.Name << ":\n";
1310fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar
1311fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar      if (SuperClasses.size() == 1) {
1312ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        OS << "    return B == " << SuperClasses.back() << ";\n";
1313fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar        continue;
1314fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar      }
1315fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar
1316ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      OS << "    switch (B) {\n";
1317ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      OS << "    default: return false;\n";
1318fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar      for (unsigned i = 0, e = SuperClasses.size(); i != e; ++i)
1319ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar        OS << "    case " << SuperClasses[i] << ": return true;\n";
1320ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar      OS << "    }\n";
1321fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar    }
1322fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  }
1323fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  OS << "  }\n";
1324fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  OS << "}\n\n";
1325fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar}
1326fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar
132770add884e4967f511e2cbb35c61534186b9b418aChris Lattnertypedef std::pair<std::string, std::string> StringPair;
132870add884e4967f511e2cbb35c61534186b9b418aChris Lattner
132970add884e4967f511e2cbb35c61534186b9b418aChris Lattner/// FindFirstNonCommonLetter - Find the first character in the keys of the
133070add884e4967f511e2cbb35c61534186b9b418aChris Lattner/// string pairs that is not shared across the whole set of strings.  All
133170add884e4967f511e2cbb35c61534186b9b418aChris Lattner/// strings are assumed to have the same length.
133270add884e4967f511e2cbb35c61534186b9b418aChris Lattnerstatic unsigned
133370add884e4967f511e2cbb35c61534186b9b418aChris LattnerFindFirstNonCommonLetter(const std::vector<const StringPair*> &Matches) {
133470add884e4967f511e2cbb35c61534186b9b418aChris Lattner  assert(!Matches.empty());
133570add884e4967f511e2cbb35c61534186b9b418aChris Lattner  for (unsigned i = 0, e = Matches[0]->first.size(); i != e; ++i) {
133670add884e4967f511e2cbb35c61534186b9b418aChris Lattner    // Check to see if letter i is the same across the set.
133770add884e4967f511e2cbb35c61534186b9b418aChris Lattner    char Letter = Matches[0]->first[i];
133870add884e4967f511e2cbb35c61534186b9b418aChris Lattner
133970add884e4967f511e2cbb35c61534186b9b418aChris Lattner    for (unsigned str = 0, e = Matches.size(); str != e; ++str)
134070add884e4967f511e2cbb35c61534186b9b418aChris Lattner      if (Matches[str]->first[i] != Letter)
134170add884e4967f511e2cbb35c61534186b9b418aChris Lattner        return i;
134270add884e4967f511e2cbb35c61534186b9b418aChris Lattner  }
134370add884e4967f511e2cbb35c61534186b9b418aChris Lattner
134470add884e4967f511e2cbb35c61534186b9b418aChris Lattner  return Matches[0]->first.size();
134570add884e4967f511e2cbb35c61534186b9b418aChris Lattner}
134670add884e4967f511e2cbb35c61534186b9b418aChris Lattner
134770add884e4967f511e2cbb35c61534186b9b418aChris Lattner/// EmitStringMatcherForChar - Given a set of strings that are known to be the
134870add884e4967f511e2cbb35c61534186b9b418aChris Lattner/// same length and whose characters leading up to CharNo are the same, emit
134970add884e4967f511e2cbb35c61534186b9b418aChris Lattner/// code to verify that CharNo and later are the same.
135072ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar///
135172ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar/// \return - True if control can leave the emitted code fragment.
135272ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbarstatic bool EmitStringMatcherForChar(const std::string &StrVariableName,
135370add884e4967f511e2cbb35c61534186b9b418aChris Lattner                                  const std::vector<const StringPair*> &Matches,
135470add884e4967f511e2cbb35c61534186b9b418aChris Lattner                                     unsigned CharNo, unsigned IndentCount,
135570add884e4967f511e2cbb35c61534186b9b418aChris Lattner                                     raw_ostream &OS) {
135670add884e4967f511e2cbb35c61534186b9b418aChris Lattner  assert(!Matches.empty() && "Must have at least one string to match!");
135770add884e4967f511e2cbb35c61534186b9b418aChris Lattner  std::string Indent(IndentCount*2+4, ' ');
135870add884e4967f511e2cbb35c61534186b9b418aChris Lattner
135970add884e4967f511e2cbb35c61534186b9b418aChris Lattner  // If we have verified that the entire string matches, we're done: output the
136070add884e4967f511e2cbb35c61534186b9b418aChris Lattner  // matching code.
136170add884e4967f511e2cbb35c61534186b9b418aChris Lattner  if (CharNo == Matches[0]->first.size()) {
136270add884e4967f511e2cbb35c61534186b9b418aChris Lattner    assert(Matches.size() == 1 && "Had duplicate keys to match on");
136370add884e4967f511e2cbb35c61534186b9b418aChris Lattner
136470add884e4967f511e2cbb35c61534186b9b418aChris Lattner    // FIXME: If Matches[0].first has embeded \n, this will be bad.
136570add884e4967f511e2cbb35c61534186b9b418aChris Lattner    OS << Indent << Matches[0]->second << "\t // \"" << Matches[0]->first
136670add884e4967f511e2cbb35c61534186b9b418aChris Lattner       << "\"\n";
136772ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar    return false;
136870add884e4967f511e2cbb35c61534186b9b418aChris Lattner  }
136970add884e4967f511e2cbb35c61534186b9b418aChris Lattner
137070add884e4967f511e2cbb35c61534186b9b418aChris Lattner  // Bucket the matches by the character we are comparing.
137170add884e4967f511e2cbb35c61534186b9b418aChris Lattner  std::map<char, std::vector<const StringPair*> > MatchesByLetter;
137270add884e4967f511e2cbb35c61534186b9b418aChris Lattner
137370add884e4967f511e2cbb35c61534186b9b418aChris Lattner  for (unsigned i = 0, e = Matches.size(); i != e; ++i)
137470add884e4967f511e2cbb35c61534186b9b418aChris Lattner    MatchesByLetter[Matches[i]->first[CharNo]].push_back(Matches[i]);
137570add884e4967f511e2cbb35c61534186b9b418aChris Lattner
137670add884e4967f511e2cbb35c61534186b9b418aChris Lattner
137770add884e4967f511e2cbb35c61534186b9b418aChris Lattner  // If we have exactly one bucket to match, see how many characters are common
137870add884e4967f511e2cbb35c61534186b9b418aChris Lattner  // across the whole set and match all of them at once.
137970add884e4967f511e2cbb35c61534186b9b418aChris Lattner  if (MatchesByLetter.size() == 1) {
138070add884e4967f511e2cbb35c61534186b9b418aChris Lattner    unsigned FirstNonCommonLetter = FindFirstNonCommonLetter(Matches);
138170add884e4967f511e2cbb35c61534186b9b418aChris Lattner    unsigned NumChars = FirstNonCommonLetter-CharNo;
138270add884e4967f511e2cbb35c61534186b9b418aChris Lattner
138372ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar    // Emit code to break out if the prefix doesn't match.
138470add884e4967f511e2cbb35c61534186b9b418aChris Lattner    if (NumChars == 1) {
138572ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar      // Do the comparison with if (Str[1] != 'f')
138670add884e4967f511e2cbb35c61534186b9b418aChris Lattner      // FIXME: Need to escape general characters.
138772ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar      OS << Indent << "if (" << StrVariableName << "[" << CharNo << "] != '"
138872ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar         << Matches[0]->first[CharNo] << "')\n";
138972ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar      OS << Indent << "  break;\n";
139070add884e4967f511e2cbb35c61534186b9b418aChris Lattner    } else {
139172ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar      // Do the comparison with if (Str.substr(1,3) != "foo").
139270add884e4967f511e2cbb35c61534186b9b418aChris Lattner      // FIXME: Need to escape general strings.
139372ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar      OS << Indent << "if (" << StrVariableName << ".substr(" << CharNo << ","
139472ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar         << NumChars << ") != \"";
139572ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar      OS << Matches[0]->first.substr(CharNo, NumChars) << "\")\n";
1396af3e9d43a2d8ba3cf5f65f54bd928846bec3ab67Daniel Dunbar      OS << Indent << "  break;\n";
139770add884e4967f511e2cbb35c61534186b9b418aChris Lattner    }
139870add884e4967f511e2cbb35c61534186b9b418aChris Lattner
139972ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar    return EmitStringMatcherForChar(StrVariableName, Matches,
140072ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar                                    FirstNonCommonLetter, IndentCount, OS);
140170add884e4967f511e2cbb35c61534186b9b418aChris Lattner  }
140270add884e4967f511e2cbb35c61534186b9b418aChris Lattner
140370add884e4967f511e2cbb35c61534186b9b418aChris Lattner  // Otherwise, we have multiple possible things, emit a switch on the
140470add884e4967f511e2cbb35c61534186b9b418aChris Lattner  // character.
140570add884e4967f511e2cbb35c61534186b9b418aChris Lattner  OS << Indent << "switch (" << StrVariableName << "[" << CharNo << "]) {\n";
140670add884e4967f511e2cbb35c61534186b9b418aChris Lattner  OS << Indent << "default: break;\n";
140770add884e4967f511e2cbb35c61534186b9b418aChris Lattner
140870add884e4967f511e2cbb35c61534186b9b418aChris Lattner  for (std::map<char, std::vector<const StringPair*> >::iterator LI =
140970add884e4967f511e2cbb35c61534186b9b418aChris Lattner       MatchesByLetter.begin(), E = MatchesByLetter.end(); LI != E; ++LI) {
141070add884e4967f511e2cbb35c61534186b9b418aChris Lattner    // TODO: escape hard stuff (like \n) if we ever care about it.
141170add884e4967f511e2cbb35c61534186b9b418aChris Lattner    OS << Indent << "case '" << LI->first << "':\t // "
141270add884e4967f511e2cbb35c61534186b9b418aChris Lattner       << LI->second.size() << " strings to match.\n";
141372ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar    if (EmitStringMatcherForChar(StrVariableName, LI->second, CharNo+1,
141472ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar                                 IndentCount+1, OS))
141572ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar      OS << Indent << "  break;\n";
141670add884e4967f511e2cbb35c61534186b9b418aChris Lattner  }
141770add884e4967f511e2cbb35c61534186b9b418aChris Lattner
141870add884e4967f511e2cbb35c61534186b9b418aChris Lattner  OS << Indent << "}\n";
141972ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar  return true;
142070add884e4967f511e2cbb35c61534186b9b418aChris Lattner}
142170add884e4967f511e2cbb35c61534186b9b418aChris Lattner
142270add884e4967f511e2cbb35c61534186b9b418aChris Lattner
142370add884e4967f511e2cbb35c61534186b9b418aChris Lattner/// EmitStringMatcher - Given a list of strings and code to execute when they
142472ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar/// match, output a simple switch tree to classify the input string.
142572ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar///
142672ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar/// If a match is found, the code in Vals[i].second is executed; control must
142772ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar/// not exit this code fragment.  If nothing matches, execution falls through.
142872ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar///
142972ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar/// \param StrVariableName - The name of the variable to test.
143070add884e4967f511e2cbb35c61534186b9b418aChris Lattnerstatic void EmitStringMatcher(const std::string &StrVariableName,
143170add884e4967f511e2cbb35c61534186b9b418aChris Lattner                              const std::vector<StringPair> &Matches,
143270add884e4967f511e2cbb35c61534186b9b418aChris Lattner                              raw_ostream &OS) {
143370add884e4967f511e2cbb35c61534186b9b418aChris Lattner  // First level categorization: group strings by length.
143470add884e4967f511e2cbb35c61534186b9b418aChris Lattner  std::map<unsigned, std::vector<const StringPair*> > MatchesByLength;
143570add884e4967f511e2cbb35c61534186b9b418aChris Lattner
143670add884e4967f511e2cbb35c61534186b9b418aChris Lattner  for (unsigned i = 0, e = Matches.size(); i != e; ++i)
143770add884e4967f511e2cbb35c61534186b9b418aChris Lattner    MatchesByLength[Matches[i].first.size()].push_back(&Matches[i]);
143870add884e4967f511e2cbb35c61534186b9b418aChris Lattner
143970add884e4967f511e2cbb35c61534186b9b418aChris Lattner  // Output a switch statement on length and categorize the elements within each
144070add884e4967f511e2cbb35c61534186b9b418aChris Lattner  // bin.
144170add884e4967f511e2cbb35c61534186b9b418aChris Lattner  OS << "  switch (" << StrVariableName << ".size()) {\n";
144270add884e4967f511e2cbb35c61534186b9b418aChris Lattner  OS << "  default: break;\n";
144370add884e4967f511e2cbb35c61534186b9b418aChris Lattner
144470add884e4967f511e2cbb35c61534186b9b418aChris Lattner  for (std::map<unsigned, std::vector<const StringPair*> >::iterator LI =
144570add884e4967f511e2cbb35c61534186b9b418aChris Lattner       MatchesByLength.begin(), E = MatchesByLength.end(); LI != E; ++LI) {
144670add884e4967f511e2cbb35c61534186b9b418aChris Lattner    OS << "  case " << LI->first << ":\t // " << LI->second.size()
144770add884e4967f511e2cbb35c61534186b9b418aChris Lattner       << " strings to match.\n";
144872ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar    if (EmitStringMatcherForChar(StrVariableName, LI->second, 0, 0, OS))
144972ffae90ce9750b46b9a7cc84e5c11dae9274ebeDaniel Dunbar      OS << "    break;\n";
145070add884e4967f511e2cbb35c61534186b9b418aChris Lattner  }
145170add884e4967f511e2cbb35c61534186b9b418aChris Lattner
145270add884e4967f511e2cbb35c61534186b9b418aChris Lattner  OS << "  }\n";
145370add884e4967f511e2cbb35c61534186b9b418aChris Lattner}
145470add884e4967f511e2cbb35c61534186b9b418aChris Lattner
145570add884e4967f511e2cbb35c61534186b9b418aChris Lattner
1456245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar/// EmitMatchTokenString - Emit the function to match a token string to the
1457245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar/// appropriate match class value.
1458245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbarstatic void EmitMatchTokenString(CodeGenTarget &Target,
1459245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar                                 std::vector<ClassInfo*> &Infos,
1460245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar                                 raw_ostream &OS) {
1461245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar  // Construct the match list.
1462245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar  std::vector<StringPair> Matches;
1463245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar  for (std::vector<ClassInfo*>::iterator it = Infos.begin(),
1464245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar         ie = Infos.end(); it != ie; ++it) {
1465245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar    ClassInfo &CI = **it;
1466245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar
1467245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar    if (CI.Kind == ClassInfo::Token)
1468245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar      Matches.push_back(StringPair(CI.ValueName, "return " + CI.Name + ";"));
1469245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar  }
1470245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar
1471b8d6e98e566724f58344d275a4bd675249bb713aChris Lattner  OS << "static MatchClassKind MatchTokenString(StringRef Name) {\n";
1472245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar
1473245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar  EmitStringMatcher("Name", Matches, OS);
1474245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar
1475245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar  OS << "  return InvalidMatchClass;\n";
1476245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar  OS << "}\n\n";
1477245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar}
147870add884e4967f511e2cbb35c61534186b9b418aChris Lattner
14792234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar/// EmitMatchRegisterName - Emit the function to match a string to the target
14802234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar/// specific register enum.
14812234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbarstatic void EmitMatchRegisterName(CodeGenTarget &Target, Record *AsmParser,
14822234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar                                  raw_ostream &OS) {
1483245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar  // Construct the match list.
148470add884e4967f511e2cbb35c61534186b9b418aChris Lattner  std::vector<StringPair> Matches;
1485245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar  for (unsigned i = 0, e = Target.getRegisters().size(); i != e; ++i) {
1486245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar    const CodeGenRegister &Reg = Target.getRegisters()[i];
148720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    if (Reg.TheDef->getValueAsString("AsmName").empty())
148820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      continue;
148920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
149070add884e4967f511e2cbb35c61534186b9b418aChris Lattner    Matches.push_back(StringPair(Reg.TheDef->getValueAsString("AsmName"),
1491245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar                                 "return " + utostr(i + 1) + ";"));
149220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  }
149370add884e4967f511e2cbb35c61534186b9b418aChris Lattner
1494b8d6e98e566724f58344d275a4bd675249bb713aChris Lattner  OS << "static unsigned MatchRegisterName(StringRef Name) {\n";
1495245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar
149670add884e4967f511e2cbb35c61534186b9b418aChris Lattner  EmitStringMatcher("Name", Matches, OS);
149770add884e4967f511e2cbb35c61534186b9b418aChris Lattner
1498245f05843f7f17406f394696e7330950e6d88e6dDaniel Dunbar  OS << "  return 0;\n";
149920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar  OS << "}\n\n";
15002234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar}
15012234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar
15022234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbarvoid AsmMatcherEmitter::run(raw_ostream &OS) {
15032234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar  CodeGenTarget Target;
15042234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar  Record *AsmParser = Target.getAsmParser();
15052234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar  std::string ClassName = AsmParser->getValueAsString("AsmParserClassName");
15062234e5eee6d196594d42e6f2be51e176bf5e5f6eDaniel Dunbar
1507a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // Compute the information on the instructions to match.
150859fc42debd571bbafc52c20bc418fdc3f4d00188Daniel Dunbar  AsmMatcherInfo Info(AsmParser);
1509a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  Info.BuildInfo(Target);
151020927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
1511e1f6de3fbd892ea3f918a26912660cf316866fc1Daniel Dunbar  // Sort the instruction table using the partial order on classes. We use
1512e1f6de3fbd892ea3f918a26912660cf316866fc1Daniel Dunbar  // stable_sort to ensure that ambiguous instructions are still
1513e1f6de3fbd892ea3f918a26912660cf316866fc1Daniel Dunbar  // deterministically ordered.
1514e1f6de3fbd892ea3f918a26912660cf316866fc1Daniel Dunbar  std::stable_sort(Info.Instructions.begin(), Info.Instructions.end(),
1515e1f6de3fbd892ea3f918a26912660cf316866fc1Daniel Dunbar                   less_ptr<InstructionInfo>());
1516606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
1517b7479c035534b1c240117cd0aea8342393160da8Daniel Dunbar  DEBUG_WITH_TYPE("instruction_info", {
1518a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      for (std::vector<InstructionInfo*>::iterator
1519a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar             it = Info.Instructions.begin(), ie = Info.Instructions.end();
1520a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar           it != ie; ++it)
152120927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar        (*it)->dump();
152220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    });
152320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
1524606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  // Check for ambiguous instructions.
1525606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  unsigned NumAmbiguous = 0;
15262b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar  for (unsigned i = 0, e = Info.Instructions.size(); i != e; ++i) {
15272b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar    for (unsigned j = i + 1; j != e; ++j) {
15282b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar      InstructionInfo &A = *Info.Instructions[i];
15292b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar      InstructionInfo &B = *Info.Instructions[j];
1530606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
15312b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar      if (A.CouldMatchAmiguouslyWith(B)) {
15322b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar        DEBUG_WITH_TYPE("ambiguous_instrs", {
15332b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar            errs() << "warning: ambiguous instruction match:\n";
15342b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar            A.dump();
15352b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar            errs() << "\nis incomparable with:\n";
15362b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar            B.dump();
15372b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar            errs() << "\n\n";
15382b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar          });
15392b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar        ++NumAmbiguous;
15402b54481a77696d47dc9220cd7a36155599750904Daniel Dunbar      }
1541606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar    }
1542606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  }
1543606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  if (NumAmbiguous)
1544606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar    DEBUG_WITH_TYPE("ambiguous_instrs", {
1545606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar        errs() << "warning: " << NumAmbiguous
1546606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar               << " ambiguous instructions!\n";
1547606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar      });
1548606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar
15491095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  // Write the output.
15501095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
15511095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  EmitSourceFileHeader("Assembly Matcher Source Fragment", OS);
15521095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
15531095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  // Emit the function to match a register name to number.
15541095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar  EmitMatchRegisterName(Target, AsmParser, OS);
1555e9b466d4f09de3b46c0d0d1e71cabddc7cc9021bSean Callanan
1556e9b466d4f09de3b46c0d0d1e71cabddc7cc9021bSean Callanan  OS << "#ifndef REGISTERS_ONLY\n\n";
15571095f2ae261d231a63d329b0ebbf6eaf566ff429Daniel Dunbar
1558606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  // Generate the unified function to convert operands into an MCInst.
1559606e8ad796f72824f5509e2657c44eca025d4bafDaniel Dunbar  EmitConvertToMCInst(Target, Info.Instructions, OS);
1560a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1561a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // Emit the enumeration for classes which participate in matching.
1562a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  EmitMatchClassEnumeration(Target, Info.Classes, OS);
156320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
1564a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // Emit the routine to match token strings to their match class.
1565a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  EmitMatchTokenString(Target, Info.Classes, OS);
156620927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
1567a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // Emit the routine to classify an operand.
1568ea6408f8cd17b065e414611e01a7133d118429e9Daniel Dunbar  EmitClassifyOperand(Target, Info, OS);
1569a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1570fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  // Emit the subclass predicate routine.
1571fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar  EmitIsSubclass(Target, Info.Classes, OS);
1572fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar
1573a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // Finally, build the match function.
1574a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1575a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  size_t MaxNumOperands = 0;
1576a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  for (std::vector<InstructionInfo*>::const_iterator it =
1577a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar         Info.Instructions.begin(), ie = Info.Instructions.end();
1578a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar       it != ie; ++it)
1579a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    MaxNumOperands = std::max(MaxNumOperands, (*it)->Operands.size());
15804f83e73a6d4d96a1a83bfd258b3bf937297c2957Daniel Dunbar
15814f83e73a6d4d96a1a83bfd258b3bf937297c2957Daniel Dunbar  const std::string &MatchName =
15824f83e73a6d4d96a1a83bfd258b3bf937297c2957Daniel Dunbar    AsmParser->getValueAsString("MatchInstructionName");
15834f83e73a6d4d96a1a83bfd258b3bf937297c2957Daniel Dunbar  OS << "bool " << Target.getName() << ClassName << "::\n"
15844f83e73a6d4d96a1a83bfd258b3bf937297c2957Daniel Dunbar     << MatchName
15854f83e73a6d4d96a1a83bfd258b3bf937297c2957Daniel Dunbar     << "(const SmallVectorImpl<MCParsedAsmOperand*> &Operands,\n";
15864f83e73a6d4d96a1a83bfd258b3bf937297c2957Daniel Dunbar  OS.indent(MatchName.size() + 1);
15874f83e73a6d4d96a1a83bfd258b3bf937297c2957Daniel Dunbar  OS << "MCInst &Inst) {\n";
158820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
1589a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // Emit the static match table; unused classes get initalized to 0 which is
1590a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // guaranteed to be InvalidMatchClass.
1591a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  //
1592a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // FIXME: We can reduce the size of this table very easily. First, we change
1593a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // it so that store the kinds in separate bit-fields for each index, which
1594a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // only needs to be the max width used for classes at that index (we also need
1595a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // to reject based on this during classification). If we then make sure to
1596a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // order the match kinds appropriately (putting mnemonics last), then we
1597a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // should only end up using a few bits for each class, especially the ones
1598a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // following the mnemonic.
1599c6049534605af5f13d1b5149488b0a9efd294582Chris Lattner  OS << "  static const struct MatchEntry {\n";
1600a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "    unsigned Opcode;\n";
1601a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "    ConversionKind ConvertFn;\n";
1602a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "    MatchClassKind Classes[" << MaxNumOperands << "];\n";
1603a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  } MatchTable[" << Info.Instructions.size() << "] = {\n";
1604a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1605a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  for (std::vector<InstructionInfo*>::const_iterator it =
1606a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar         Info.Instructions.begin(), ie = Info.Instructions.end();
1607a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar       it != ie; ++it) {
160820927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    InstructionInfo &II = **it;
160920927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
1610a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    OS << "    { " << Target.getName() << "::" << II.InstrName
1611a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar       << ", " << II.ConversionFnKind << ", { ";
161220927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    for (unsigned i = 0, e = II.Operands.size(); i != e; ++i) {
161320927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar      InstructionInfo::Operand &Op = II.Operands[i];
161420927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar
1615a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      if (i) OS << ", ";
1616a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar      OS << Op.Class->Name;
161720927f26fcd7d0394bc60c58c61d879a83adac0dDaniel Dunbar    }
1618a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    OS << " } },\n";
1619a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  }
1620a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1621a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  };\n\n";
1622a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1623a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // Emit code to compute the class list for this operand vector.
1624a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  // Eliminate obvious mismatches.\n";
1625a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  if (Operands.size() > " << MaxNumOperands << ")\n";
1626a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "    return true;\n\n";
1627a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1628a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  // Compute the class list for this operand vector.\n";
1629a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  MatchClassKind Classes[" << MaxNumOperands << "];\n";
1630a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  for (unsigned i = 0, e = Operands.size(); i != e; ++i) {\n";
1631a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "    Classes[i] = ClassifyOperand(Operands[i]);\n\n";
1632a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1633a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "    // Check for invalid operands before matching.\n";
1634a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "    if (Classes[i] == InvalidMatchClass)\n";
1635a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "      return true;\n";
1636a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  }\n\n";
1637a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1638a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  // Mark unused classes.\n";
1639a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  for (unsigned i = Operands.size(), e = " << MaxNumOperands << "; "
1640a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar     << "i != e; ++i)\n";
1641a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "    Classes[i] = InvalidMatchClass;\n\n";
1642a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar
1643a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  // Emit code to search the table.
1644a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  // Search the table.\n";
1645d39bd3aa5c795e55c0e2c4a5c72dab58ce1a1576Chris Lattner  OS << "  for (const MatchEntry *it = MatchTable, "
1646a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar     << "*ie = MatchTable + " << Info.Instructions.size()
1647a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar     << "; it != ie; ++it) {\n";
1648a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  for (unsigned i = 0; i != MaxNumOperands; ++i) {
1649fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar    OS << "    if (!IsSubclass(Classes["
1650fdb1f493ab6bcfb5603b9f497195492d92aceacbDaniel Dunbar       << i << "], it->Classes[" << i << "]))\n";
1651a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar    OS << "      continue;\n";
1652a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  }
1653a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "\n";
16548cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar  OS << "    ConvertToMCInst(it->ConvertFn, Inst, it->Opcode, Operands);\n";
16558cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar
16568cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar  // Call the post-processing function, if used.
16578cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar  std::string InsnCleanupFn =
16588cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar    AsmParser->getValueAsString("AsmParserInstCleanup");
16598cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar  if (!InsnCleanupFn.empty())
16608cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar    OS << "    " << InsnCleanupFn << "(Inst);\n";
16618cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar
16628cc9c0c487128c4d675d45803a0711c3e43534afDaniel Dunbar  OS << "    return false;\n";
1663a3741fa28b1a397ebfd623ef9d14e978df94ce47Daniel Dunbar  OS << "  }\n\n";
1664a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar
1665a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  OS << "  return true;\n";
1666a027d222e18ea9028e9e12ae2f5cd566889b599aDaniel Dunbar  OS << "}\n\n";
1667e9b466d4f09de3b46c0d0d1e71cabddc7cc9021bSean Callanan
1668e9b466d4f09de3b46c0d0d1e71cabddc7cc9021bSean Callanan  OS << "#endif // REGISTERS_ONLY\n";
1669d51ffcf303070b0a5aea7f365b85f6f969c384cbDaniel Dunbar}
1670