mirror of
https://github.com/c64scene-ar/llvm-6502.git
synced 2024-11-13 21:05:16 +00:00
9d5f456077
Next round of x87 long double stuff. Getting close now, basically works. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@41875 91177308-0d34-0410-b5e6-96231b3b80d8
511 lines
18 KiB
C++
511 lines
18 KiB
C++
/*===-- Lexer.l - Scanner for llvm assembly files --------------*- C++ -*--===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the flex scanner for LLVM assembly languages files.
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//
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//===----------------------------------------------------------------------===*/
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%option prefix="llvmAsm"
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%option yylineno
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%option nostdinit
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%option never-interactive
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%option batch
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%option noyywrap
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%option nodefault
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%option 8bit
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%option outfile="Lexer.cpp"
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%option ecs
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%option noreject
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%option noyymore
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%{
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#include "ParserInternals.h"
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#include "llvm/Module.h"
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#include "llvm/Support/MathExtras.h"
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#include <list>
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#include "llvmAsmParser.h"
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#include <cctype>
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#include <cstdlib>
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void set_scan_file(FILE * F){
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yy_switch_to_buffer(yy_create_buffer( F, YY_BUF_SIZE ) );
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}
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void set_scan_string (const char * str) {
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yy_scan_string (str);
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}
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// Construct a token value for a non-obsolete token
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#define RET_TOK(type, Enum, sym) \
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llvmAsmlval.type = Instruction::Enum; \
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return sym
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// Construct a token value for an obsolete token
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#define RET_TY(CTYPE, SYM) \
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llvmAsmlval.PrimType = CTYPE;\
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return SYM
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namespace llvm {
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// TODO: All of the static identifiers are figured out by the lexer,
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// these should be hashed to reduce the lexer size
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// atoull - Convert an ascii string of decimal digits into the unsigned long
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// long representation... this does not have to do input error checking,
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// because we know that the input will be matched by a suitable regex...
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//
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static uint64_t atoull(const char *Buffer) {
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uint64_t Result = 0;
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for (; *Buffer; Buffer++) {
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uint64_t OldRes = Result;
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Result *= 10;
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Result += *Buffer-'0';
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if (Result < OldRes) // Uh, oh, overflow detected!!!
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GenerateError("constant bigger than 64 bits detected!");
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}
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return Result;
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}
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static uint64_t HexIntToVal(const char *Buffer) {
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uint64_t Result = 0;
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for (; *Buffer; ++Buffer) {
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uint64_t OldRes = Result;
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Result *= 16;
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char C = *Buffer;
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if (C >= '0' && C <= '9')
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Result += C-'0';
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else if (C >= 'A' && C <= 'F')
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Result += C-'A'+10;
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else if (C >= 'a' && C <= 'f')
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Result += C-'a'+10;
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if (Result < OldRes) // Uh, oh, overflow detected!!!
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GenerateError("constant bigger than 64 bits detected!");
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}
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return Result;
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}
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// HexToFP - Convert the ascii string in hexadecimal format to the floating
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// point representation of it.
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//
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static double HexToFP(const char *Buffer) {
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return BitsToDouble(HexIntToVal(Buffer)); // Cast Hex constant to double
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}
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static void HexToIntPair(const char *Buffer, uint64_t Pair[2]) {
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Pair[0] = 0;
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for (int i=0; i<16; i++, Buffer++) {
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assert(*Buffer);
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Pair[0] *= 16;
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char C = *Buffer;
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if (C >= '0' && C <= '9')
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Pair[0] += C-'0';
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else if (C >= 'A' && C <= 'F')
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Pair[0] += C-'A'+10;
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else if (C >= 'a' && C <= 'f')
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Pair[0] += C-'a'+10;
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}
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Pair[1] = 0;
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for (int i=0; i<16 && *Buffer; i++, Buffer++) {
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Pair[1] *= 16;
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char C = *Buffer;
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if (C >= '0' && C <= '9')
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Pair[1] += C-'0';
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else if (C >= 'A' && C <= 'F')
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Pair[1] += C-'A'+10;
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else if (C >= 'a' && C <= 'f')
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Pair[1] += C-'a'+10;
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}
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if (*Buffer)
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GenerateError("constant bigger than 128 bits detected!");
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}
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// UnEscapeLexed - Run through the specified buffer and change \xx codes to the
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// appropriate character.
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char *UnEscapeLexed(char *Buffer, char* EndBuffer) {
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char *BOut = Buffer;
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for (char *BIn = Buffer; *BIn; ) {
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if (BIn[0] == '\\') {
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if (BIn < EndBuffer-1 && BIn[1] == '\\') {
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*BOut++ = '\\'; // Two \ becomes one
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BIn += 2;
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} else if (BIn < EndBuffer-2 && isxdigit(BIn[1]) && isxdigit(BIn[2])) {
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char Tmp = BIn[3]; BIn[3] = 0; // Terminate string
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*BOut = (char)strtol(BIn+1, 0, 16); // Convert to number
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BIn[3] = Tmp; // Restore character
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BIn += 3; // Skip over handled chars
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++BOut;
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} else {
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*BOut++ = *BIn++;
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}
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} else {
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*BOut++ = *BIn++;
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}
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}
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return BOut;
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}
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} // End llvm namespace
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using namespace llvm;
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#define YY_NEVER_INTERACTIVE 1
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%}
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/* Comments start with a ; and go till end of line */
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Comment ;.*
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/* Local Values and Type identifiers start with a % sign */
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LocalVarName %[-a-zA-Z$._][-a-zA-Z$._0-9]*
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/* Global Value identifiers start with an @ sign */
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GlobalVarName @[-a-zA-Z$._][-a-zA-Z$._0-9]*
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/* Label identifiers end with a colon */
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Label [-a-zA-Z$._0-9]+:
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QuoteLabel \"[^\"]+\":
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/* Quoted names can contain any character except " and \ */
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StringConstant \"[^\"]*\"
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AtStringConstant @\"[^\"]*\"
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PctStringConstant %\"[^\"]*\"
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/* LocalVarID/GlobalVarID: match an unnamed local variable slot ID. */
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LocalVarID %[0-9]+
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GlobalVarID @[0-9]+
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/* Integer types are specified with i and a bitwidth */
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IntegerType i[0-9]+
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/* E[PN]Integer: match positive and negative literal integer values. */
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PInteger [0-9]+
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NInteger -[0-9]+
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/* FPConstant - A Floating point constant. Float and double only.
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*/
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FPConstant [-+]?[0-9]+[.][0-9]*([eE][-+]?[0-9]+)?
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/* HexFPConstant - Floating point constant represented in IEEE format as a
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* hexadecimal number for when exponential notation is not precise enough.
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* Float and double only.
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*/
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HexFPConstant 0x[0-9A-Fa-f]+
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/* F80HexFPConstant - x87 long double in hexadecimal format (10 bytes)
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*/
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HexFP80Constant 0xK[0-9A-Fa-f]+
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/* F128HexFPConstant - IEEE 128-bit in hexadecimal format (16 bytes)
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*/
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HexFP128Constant 0xL[0-9A-Fa-f]+
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/* PPC128HexFPConstant - PowerPC 128-bit in hexadecimal format (16 bytes)
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*/
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HexPPC128Constant 0xM[0-9A-Fa-f]+
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/* HexIntConstant - Hexadecimal constant generated by the CFE to avoid forcing
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* it to deal with 64 bit numbers.
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*/
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HexIntConstant [us]0x[0-9A-Fa-f]+
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/* WSNL - shorthand for whitespace followed by newline */
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WSNL [ \r\t]*$
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%%
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{Comment} { /* Ignore comments for now */ }
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begin { return BEGINTOK; }
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end { return ENDTOK; }
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true { return TRUETOK; }
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false { return FALSETOK; }
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declare { return DECLARE; }
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define { return DEFINE; }
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global { return GLOBAL; }
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constant { return CONSTANT; }
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internal { return INTERNAL; }
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linkonce { return LINKONCE; }
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weak { return WEAK; }
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appending { return APPENDING; }
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dllimport { return DLLIMPORT; }
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dllexport { return DLLEXPORT; }
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hidden { return HIDDEN; }
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protected { return PROTECTED; }
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extern_weak { return EXTERN_WEAK; }
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external { return EXTERNAL; }
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thread_local { return THREAD_LOCAL; }
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zeroinitializer { return ZEROINITIALIZER; }
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\.\.\. { return DOTDOTDOT; }
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undef { return UNDEF; }
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null { return NULL_TOK; }
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to { return TO; }
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tail { return TAIL; }
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target { return TARGET; }
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triple { return TRIPLE; }
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deplibs { return DEPLIBS; }
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datalayout { return DATALAYOUT; }
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volatile { return VOLATILE; }
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align { return ALIGN; }
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section { return SECTION; }
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alias { return ALIAS; }
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module { return MODULE; }
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asm { return ASM_TOK; }
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sideeffect { return SIDEEFFECT; }
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cc { return CC_TOK; }
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ccc { return CCC_TOK; }
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fastcc { return FASTCC_TOK; }
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coldcc { return COLDCC_TOK; }
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x86_stdcallcc { return X86_STDCALLCC_TOK; }
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x86_fastcallcc { return X86_FASTCALLCC_TOK; }
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signext { return SIGNEXT; }
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zeroext { return ZEROEXT; }
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inreg { return INREG; }
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sret { return SRET; }
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nounwind { return NOUNWIND; }
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noreturn { return NORETURN; }
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noalias { return NOALIAS; }
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byval { return BYVAL; }
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nest { return NEST; }
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sext{WSNL} { // For auto-upgrade only, drop in LLVM 3.0
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return SIGNEXT; }
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zext{WSNL} { // For auto-upgrade only, drop in LLVM 3.0
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return ZEROEXT; }
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void { RET_TY(Type::VoidTy, VOID); }
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float { RET_TY(Type::FloatTy, FLOAT); }
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double { RET_TY(Type::DoubleTy,DOUBLE);}
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x86_fp80 { RET_TY(Type::X86_FP80Ty, X86_FP80);}
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fp128 { RET_TY(Type::FP128Ty, FP128);}
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ppc_fp128 { RET_TY(Type::PPC_FP128Ty, PPC_FP128);}
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label { RET_TY(Type::LabelTy, LABEL); }
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type { return TYPE; }
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opaque { return OPAQUE; }
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{IntegerType} { uint64_t NumBits = atoull(yytext+1);
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if (NumBits < IntegerType::MIN_INT_BITS ||
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NumBits > IntegerType::MAX_INT_BITS)
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GenerateError("Bitwidth for integer type out of range!");
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const Type* Ty = IntegerType::get(NumBits);
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RET_TY(Ty, INTTYPE);
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}
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add { RET_TOK(BinaryOpVal, Add, ADD); }
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sub { RET_TOK(BinaryOpVal, Sub, SUB); }
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mul { RET_TOK(BinaryOpVal, Mul, MUL); }
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udiv { RET_TOK(BinaryOpVal, UDiv, UDIV); }
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sdiv { RET_TOK(BinaryOpVal, SDiv, SDIV); }
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fdiv { RET_TOK(BinaryOpVal, FDiv, FDIV); }
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urem { RET_TOK(BinaryOpVal, URem, UREM); }
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srem { RET_TOK(BinaryOpVal, SRem, SREM); }
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frem { RET_TOK(BinaryOpVal, FRem, FREM); }
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shl { RET_TOK(BinaryOpVal, Shl, SHL); }
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lshr { RET_TOK(BinaryOpVal, LShr, LSHR); }
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ashr { RET_TOK(BinaryOpVal, AShr, ASHR); }
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and { RET_TOK(BinaryOpVal, And, AND); }
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or { RET_TOK(BinaryOpVal, Or , OR ); }
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xor { RET_TOK(BinaryOpVal, Xor, XOR); }
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icmp { RET_TOK(OtherOpVal, ICmp, ICMP); }
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fcmp { RET_TOK(OtherOpVal, FCmp, FCMP); }
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eq { return EQ; }
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ne { return NE; }
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slt { return SLT; }
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sgt { return SGT; }
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sle { return SLE; }
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sge { return SGE; }
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ult { return ULT; }
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ugt { return UGT; }
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ule { return ULE; }
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uge { return UGE; }
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oeq { return OEQ; }
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one { return ONE; }
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olt { return OLT; }
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ogt { return OGT; }
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ole { return OLE; }
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oge { return OGE; }
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ord { return ORD; }
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uno { return UNO; }
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ueq { return UEQ; }
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une { return UNE; }
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phi { RET_TOK(OtherOpVal, PHI, PHI_TOK); }
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call { RET_TOK(OtherOpVal, Call, CALL); }
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trunc { RET_TOK(CastOpVal, Trunc, TRUNC); }
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zext { RET_TOK(CastOpVal, ZExt, ZEXT); }
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sext { RET_TOK(CastOpVal, SExt, SEXT); }
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fptrunc { RET_TOK(CastOpVal, FPTrunc, FPTRUNC); }
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fpext { RET_TOK(CastOpVal, FPExt, FPEXT); }
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uitofp { RET_TOK(CastOpVal, UIToFP, UITOFP); }
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sitofp { RET_TOK(CastOpVal, SIToFP, SITOFP); }
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fptoui { RET_TOK(CastOpVal, FPToUI, FPTOUI); }
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fptosi { RET_TOK(CastOpVal, FPToSI, FPTOSI); }
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inttoptr { RET_TOK(CastOpVal, IntToPtr, INTTOPTR); }
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ptrtoint { RET_TOK(CastOpVal, PtrToInt, PTRTOINT); }
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bitcast { RET_TOK(CastOpVal, BitCast, BITCAST); }
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select { RET_TOK(OtherOpVal, Select, SELECT); }
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va_arg { RET_TOK(OtherOpVal, VAArg , VAARG); }
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ret { RET_TOK(TermOpVal, Ret, RET); }
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br { RET_TOK(TermOpVal, Br, BR); }
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switch { RET_TOK(TermOpVal, Switch, SWITCH); }
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invoke { RET_TOK(TermOpVal, Invoke, INVOKE); }
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unwind { RET_TOK(TermOpVal, Unwind, UNWIND); }
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unreachable { RET_TOK(TermOpVal, Unreachable, UNREACHABLE); }
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malloc { RET_TOK(MemOpVal, Malloc, MALLOC); }
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alloca { RET_TOK(MemOpVal, Alloca, ALLOCA); }
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free { RET_TOK(MemOpVal, Free, FREE); }
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load { RET_TOK(MemOpVal, Load, LOAD); }
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store { RET_TOK(MemOpVal, Store, STORE); }
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getelementptr { RET_TOK(MemOpVal, GetElementPtr, GETELEMENTPTR); }
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extractelement { RET_TOK(OtherOpVal, ExtractElement, EXTRACTELEMENT); }
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insertelement { RET_TOK(OtherOpVal, InsertElement, INSERTELEMENT); }
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shufflevector { RET_TOK(OtherOpVal, ShuffleVector, SHUFFLEVECTOR); }
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{LocalVarName} {
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llvmAsmlval.StrVal = new std::string(yytext+1); // Skip %
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return LOCALVAR;
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}
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{GlobalVarName} {
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llvmAsmlval.StrVal = new std::string(yytext+1); // Skip @
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return GLOBALVAR;
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}
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{Label} {
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yytext[yyleng-1] = 0; // nuke colon
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llvmAsmlval.StrVal = new std::string(yytext);
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return LABELSTR;
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}
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{QuoteLabel} {
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yytext[yyleng-2] = 0; // nuke colon, end quote
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const char* EndChar = UnEscapeLexed(yytext+1, yytext+yyleng);
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llvmAsmlval.StrVal =
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new std::string(yytext+1, EndChar - yytext - 1);
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return LABELSTR;
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}
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{StringConstant} { yytext[yyleng-1] = 0; // nuke end quote
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const char* EndChar = UnEscapeLexed(yytext+1, yytext+yyleng);
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llvmAsmlval.StrVal =
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new std::string(yytext+1, EndChar - yytext - 1);
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return STRINGCONSTANT;
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}
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{AtStringConstant} {
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yytext[yyleng-1] = 0; // nuke end quote
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const char* EndChar =
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UnEscapeLexed(yytext+2, yytext+yyleng);
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llvmAsmlval.StrVal =
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new std::string(yytext+2, EndChar - yytext - 2);
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return ATSTRINGCONSTANT;
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}
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{PctStringConstant} {
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yytext[yyleng-1] = 0; // nuke end quote
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const char* EndChar =
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UnEscapeLexed(yytext+2, yytext+yyleng);
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llvmAsmlval.StrVal =
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new std::string(yytext+2, EndChar - yytext - 2);
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return PCTSTRINGCONSTANT;
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}
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{PInteger} {
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uint32_t numBits = ((yyleng * 64) / 19) + 1;
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APInt Tmp(numBits, yytext, yyleng, 10);
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uint32_t activeBits = Tmp.getActiveBits();
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if (activeBits > 0 && activeBits < numBits)
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Tmp.trunc(activeBits);
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if (Tmp.getBitWidth() > 64) {
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llvmAsmlval.APIntVal = new APInt(Tmp);
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return EUAPINTVAL;
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} else {
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llvmAsmlval.UInt64Val = Tmp.getZExtValue();
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return EUINT64VAL;
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}
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}
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{NInteger} {
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uint32_t numBits = (((yyleng-1) * 64) / 19) + 2;
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APInt Tmp(numBits, yytext, yyleng, 10);
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uint32_t minBits = Tmp.getMinSignedBits();
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if (minBits > 0 && minBits < numBits)
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Tmp.trunc(minBits);
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if (Tmp.getBitWidth() > 64) {
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llvmAsmlval.APIntVal = new APInt(Tmp);
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return ESAPINTVAL;
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} else {
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llvmAsmlval.SInt64Val = Tmp.getSExtValue();
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return ESINT64VAL;
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}
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}
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{HexIntConstant} { int len = yyleng - 3;
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uint32_t bits = len * 4;
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APInt Tmp(bits, yytext+3, len, 16);
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uint32_t activeBits = Tmp.getActiveBits();
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if (activeBits > 0 && activeBits < bits)
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Tmp.trunc(activeBits);
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if (Tmp.getBitWidth() > 64) {
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llvmAsmlval.APIntVal = new APInt(Tmp);
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return yytext[0] == 's' ? ESAPINTVAL : EUAPINTVAL;
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} else if (yytext[0] == 's') {
|
|
llvmAsmlval.SInt64Val = Tmp.getSExtValue();
|
|
return ESINT64VAL;
|
|
} else {
|
|
llvmAsmlval.UInt64Val = Tmp.getZExtValue();
|
|
return EUINT64VAL;
|
|
}
|
|
}
|
|
|
|
{LocalVarID} {
|
|
uint64_t Val = atoull(yytext+1);
|
|
if ((unsigned)Val != Val)
|
|
GenerateError("Invalid value number (too large)!");
|
|
llvmAsmlval.UIntVal = unsigned(Val);
|
|
return LOCALVAL_ID;
|
|
}
|
|
{GlobalVarID} {
|
|
uint64_t Val = atoull(yytext+1);
|
|
if ((unsigned)Val != Val)
|
|
GenerateError("Invalid value number (too large)!");
|
|
llvmAsmlval.UIntVal = unsigned(Val);
|
|
return GLOBALVAL_ID;
|
|
}
|
|
|
|
{FPConstant} { llvmAsmlval.FPVal = new APFloat(atof(yytext)); return FPVAL; }
|
|
{HexFPConstant} { llvmAsmlval.FPVal = new APFloat(HexToFP(yytext+2));
|
|
return FPVAL;
|
|
}
|
|
{HexFP80Constant} { uint64_t Pair[2];
|
|
HexToIntPair(yytext+3, Pair);
|
|
llvmAsmlval.FPVal = new APFloat(APInt(80, 2, Pair));
|
|
return FPVAL;
|
|
}
|
|
{HexFP128Constant} { uint64_t Pair[2];
|
|
HexToIntPair(yytext+3, Pair);
|
|
llvmAsmlval.FPVal = new APFloat(APInt(128, 2, Pair));
|
|
return FPVAL;
|
|
}
|
|
{HexPPC128Constant} { uint64_t Pair[2];
|
|
HexToIntPair(yytext+3, Pair);
|
|
llvmAsmlval.FPVal = new APFloat(APInt(128, 2, Pair));
|
|
return FPVAL;
|
|
}
|
|
|
|
<<EOF>> {
|
|
/* Make sure to free the internal buffers for flex when we are
|
|
* done reading our input!
|
|
*/
|
|
yy_delete_buffer(YY_CURRENT_BUFFER);
|
|
return EOF;
|
|
}
|
|
|
|
[ \r\t\n] { /* Ignore whitespace */ }
|
|
. { return yytext[0]; }
|
|
|
|
%%
|