reduce nesting, use memchr instead of explicit loop, eliminate a

temporary std::string to fix a fixme.

llvm-svn: 66530
This commit is contained in:
Chris Lattner 2009-03-10 06:11:34 +00:00
parent 2d43eaefa2
commit 80337892f4
1 changed files with 87 additions and 94 deletions

View File

@ -705,86 +705,82 @@ static std::string ConvertAsmString(const AsmStmt& S, bool &Failed) {
return Result;
}
// FIXME: No need to create new std::string here, we could just make sure
// that we don't read past the end of the string data.
std::string str(StrStart, StrEnd);
std::string Result;
const char *Start = str.c_str();
unsigned NumOperands = S.getNumOutputs() + S.getNumInputs();
while (*Start) {
switch (*Start) {
default:
Result += *Start;
break;
case '$':
Result += "$$";
break;
case '%':
// Escaped character
Start++;
// FIXME: This should be caught during Sema.
assert(*Start && "Trailing '%' in asm string.");
while (1) {
// Done with the string?
if (StrStart == StrEnd)
return Result;
char EscapedChar = *Start;
if (EscapedChar == '%') {
char CurChar = *StrStart++;
if (CurChar == '$') {
Result += "$$";
continue;
} else if (CurChar != '%') {
Result += CurChar;
continue;
}
// Escaped "%" character in asm string.
// FIXME: This should be caught during Sema.
assert(StrStart != StrEnd && "Trailing '%' in asm string.");
char EscapedChar = *StrStart++;
if (EscapedChar == '%') { // %% -> %
// Escaped percentage sign.
Result += '%';
} else if (EscapedChar == '=') {
// Generate an unique ID.
continue;
}
if (EscapedChar == '=') { // %= -> Generate an unique ID.
Result += "${:uid}";
} else if (isdigit(EscapedChar)) {
continue;
}
if (isdigit(EscapedChar)) {
// %n - Assembler operand n
char *End;
unsigned long n = strtoul(Start, &End, 10);
if (Start == End) {
unsigned long N = strtoul(StrStart-1, &End, 10);
assert(End != StrStart-1 && "We know that EscapedChar is a digit!");
// FIXME: This should be caught during Sema.
assert(0 && "Missing operand!");
} else if (n >= NumOperands) {
// FIXME: This should be caught during Sema.
assert(0 && "Operand number out of range!");
assert(N < NumOperands && "Operand number out of range!");
Result += '$' + llvm::utostr(N);
StrStart = End;
continue;
}
Result += '$' + llvm::utostr(n);
Start = End - 1;
} else if (isalpha(EscapedChar)) {
if (isalpha(EscapedChar)) {
char *End;
// Skip the single letter escape and read the number, e.g. "%x4".
unsigned long N = strtoul(StrStart, &End, 10);
// FIXME: This should be caught during Sema.
assert(End != StrStart && "Missing operand!");
// FIXME: This should be caught during Sema.
assert(N < NumOperands && "Operand number out of range!");
unsigned long n = strtoul(Start + 1, &End, 10);
if (Start == End) {
// FIXME: This should be caught during Sema.
assert(0 && "Missing operand!");
} else if (n >= NumOperands) {
// FIXME: This should be caught during Sema.
assert(0 && "Operand number out of range!");
Result += "${" + llvm::utostr(N) + ':' + EscapedChar + '}';
StrStart = End;
continue;
}
Result += "${" + llvm::utostr(n) + ':' + EscapedChar + '}';
Start = End - 1;
} else if (EscapedChar == '[') {
std::string SymbolicName;
Start++;
while (*Start && *Start != ']') {
SymbolicName += *Start;
Start++;
}
if (!Start) {
// Handle %[foo], a symbolic operand reference.
if (EscapedChar == '[') {
const char *NameEnd = (const char*)memchr(StrStart, ']', StrEnd-StrStart);
// FIXME: Should be caught by sema.
assert(0 && "Could not parse symbolic name");
}
assert(NameEnd != 0 && "Could not parse symbolic name");
assert(*Start == ']' && "Error parsing symbolic name");
std::string SymbolicName(StrStart, NameEnd);
StrStart = NameEnd+1;
int Index = -1;
// Check if this is an output operand.
for (unsigned i = 0; i < S.getNumOutputs(); i++) {
for (unsigned i = 0; i != S.getNumOutputs(); ++i) {
if (S.getOutputName(i) == SymbolicName) {
Index = i;
break;
@ -792,9 +788,10 @@ static std::string ConvertAsmString(const AsmStmt& S, bool &Failed) {
}
if (Index == -1) {
for (unsigned i = 0; i < S.getNumInputs(); i++) {
for (unsigned i = 0; i != S.getNumInputs(); ++i) {
if (S.getInputName(i) == SymbolicName) {
Index = S.getNumOutputs() + i;
break;
}
}
}
@ -802,16 +799,12 @@ static std::string ConvertAsmString(const AsmStmt& S, bool &Failed) {
assert(Index != -1 && "Did not find right operand!");
Result += '$' + llvm::utostr(Index);
continue;
}
} else {
Failed = true;
return "";
}
}
Start++;
}
return Result;
}
static std::string SimplifyConstraint(const char* Constraint,