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llvm-mirror/lib/Target/TargetRecip.cpp
Sanjay Patel aea884eb82 [Target] move reciprocal estimate settings from TargetOptions to TargetLowering 
The motivation for the change is that we can't have pseudo-global settings for
codegen living in TargetOptions because that doesn't work with LTO.

Ideally, these reciprocal attributes will be moved to the instruction-level via
FMF, metadata, or something else. But making them function attributes is at least
an improvement over the current state.

The ingredients of this patch are:

    Remove the reciprocal estimate command-line debug option.
    Add TargetRecip to TargetLowering.
    Remove TargetRecip from TargetOptions.
    Clean up the TargetRecip implementation to work with this new scheme.
    Set the default reciprocal settings in TargetLoweringBase (everything is off).
    Update the PowerPC defaults, users, and tests.
    Update the x86 defaults, users, and tests.

Note that if this patch needs to be reverted, the related clang patch checked in
at r283251 should be reverted too.

Differential Revision: https://reviews.llvm.org/D24816

llvm-svn: 283252
2016-10-04 20:46:43 +00:00

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//===-------------------------- TargetRecip.cpp ---------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This class is used to customize machine-specific reciprocal estimate code
// generation in a target-independent way.
// If a target does not support operations in this specification, then code
// generation will default to using supported operations.
//
//===----------------------------------------------------------------------===//
#include "llvm/Target/TargetRecip.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/Support/ErrorHandling.h"
using namespace llvm;
// These are the names of the individual reciprocal operations. These are
// the key strings for queries and command-line inputs.
// In addition, the command-line interface recognizes the global parameters
// "all", "none", and "default".
static const char *const RecipOps[] = {
"divd",
"divf",
"vec-divd",
"vec-divf",
"sqrtd",
"sqrtf",
"vec-sqrtd",
"vec-sqrtf",
};
/// All operations are disabled by default and refinement steps are set to zero.
TargetRecip::TargetRecip() {
unsigned NumStrings = llvm::array_lengthof(RecipOps);
for (unsigned i = 0; i < NumStrings; ++i)
RecipMap.insert(std::make_pair(RecipOps[i], RecipParams()));
}
static bool parseRefinementStep(StringRef In, size_t &Position,
uint8_t &Value) {
const char RefStepToken = ':';
Position = In.find(RefStepToken);
if (Position == StringRef::npos)
return false;
StringRef RefStepString = In.substr(Position + 1);
// Allow exactly one numeric character for the additional refinement
// step parameter.
if (RefStepString.size() == 1) {
char RefStepChar = RefStepString[0];
if (RefStepChar >= '0' && RefStepChar <= '9') {
Value = RefStepChar - '0';
return true;
}
}
report_fatal_error("Invalid refinement step for -recip.");
}
bool TargetRecip::parseGlobalParams(const std::string &Arg) {
StringRef ArgSub = Arg;
// Look for an optional setting of the number of refinement steps needed
// for this type of reciprocal operation.
size_t RefPos;
uint8_t RefSteps;
StringRef RefStepString;
if (parseRefinementStep(ArgSub, RefPos, RefSteps)) {
// Split the string for further processing.
RefStepString = ArgSub.substr(RefPos + 1);
ArgSub = ArgSub.substr(0, RefPos);
}
bool Enable;
bool UseDefaults;
if (ArgSub == "all") {
UseDefaults = false;
Enable = true;
} else if (ArgSub == "none") {
UseDefaults = false;
Enable = false;
} else if (ArgSub == "default") {
UseDefaults = true;
} else {
// Any other string is invalid or an individual setting.
return false;
}
// All enable values will be initialized to target defaults if 'default' was
// specified.
if (!UseDefaults)
for (auto &KV : RecipMap)
KV.second.Enabled = Enable;
// Custom refinement count was specified with all, none, or default.
if (!RefStepString.empty())
for (auto &KV : RecipMap)
KV.second.RefinementSteps = RefSteps;
return true;
}
void TargetRecip::parseIndividualParams(const std::vector<std::string> &Args) {
static const char DisabledPrefix = '!';
unsigned NumArgs = Args.size();
for (unsigned i = 0; i != NumArgs; ++i) {
StringRef Val = Args[i];
bool IsDisabled = Val[0] == DisabledPrefix;
// Ignore the disablement token for string matching.
if (IsDisabled)
Val = Val.substr(1);
size_t RefPos;
uint8_t RefSteps;
StringRef RefStepString;
if (parseRefinementStep(Val, RefPos, RefSteps)) {
// Split the string for further processing.
RefStepString = Val.substr(RefPos + 1);
Val = Val.substr(0, RefPos);
}
RecipIter Iter = RecipMap.find(Val);
if (Iter == RecipMap.end()) {
// Try again specifying float suffix.
Iter = RecipMap.find(Val.str() + 'f');
if (Iter == RecipMap.end()) {
Iter = RecipMap.find(Val.str() + 'd');
assert(Iter == RecipMap.end() && "Float entry missing from map");
report_fatal_error("Invalid option for -recip.");
}
}
// Mark the matched option as found. Do not allow duplicate specifiers.
Iter->second.Enabled = !IsDisabled;
if (!RefStepString.empty())
Iter->second.RefinementSteps = RefSteps;
// If the precision was not specified, the double entry is also initialized.
if (Val.back() != 'f' && Val.back() != 'd') {
RecipParams &Params = RecipMap[Val.str() + 'd'];
Params.Enabled = !IsDisabled;
if (!RefStepString.empty())
Params.RefinementSteps = RefSteps;
}
}
}
void TargetRecip::set(StringRef &RecipString) {
SmallVector<StringRef, 4> RecipStringVector;
SplitString(RecipString, RecipStringVector, ",");
std::vector<std::string> RecipVector;
for (unsigned i = 0; i < RecipStringVector.size(); ++i)
RecipVector.push_back(RecipStringVector[i].str());
unsigned NumArgs = RecipVector.size();
// Check if "all", "default", or "none" was specified.
if (NumArgs == 1 && parseGlobalParams(RecipVector[0]))
return;
parseIndividualParams(RecipVector);
}
bool TargetRecip::isEnabled(StringRef Key) const {
ConstRecipIter Iter = RecipMap.find(Key);
assert(Iter != RecipMap.end() && "Unknown name for reciprocal map");
return Iter->second.Enabled;
}
unsigned TargetRecip::getRefinementSteps(StringRef Key) const {
ConstRecipIter Iter = RecipMap.find(Key);
assert(Iter != RecipMap.end() && "Unknown name for reciprocal map");
return Iter->second.RefinementSteps;
}
void TargetRecip::set(StringRef Key, bool Enable, unsigned RefSteps) {
if (Key == "all") {
for (auto &KV : RecipMap) {
RecipParams &RP = KV.second;
RP.Enabled = Enable;
RP.RefinementSteps = RefSteps;
}
} else {
RecipParams &RP = RecipMap[Key];
RP.Enabled = Enable;
RP.RefinementSteps = RefSteps;
}
}
bool TargetRecip::operator==(const TargetRecip &Other) const {
for (const auto &KV : RecipMap) {
StringRef Op = KV.first;
const RecipParams &RP = KV.second;
const RecipParams &OtherRP = Other.RecipMap.find(Op)->second;
if (RP.RefinementSteps != OtherRP.RefinementSteps)
return false;
if (RP.Enabled != OtherRP.Enabled)
return false;
}
return true;
}
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