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03f874e4f735be06efc3b7dd2042da9773170265
swift-mirror/tools/swift/Immediate.cpp
Chris Lattner 03f874e4f7 bring my ridiculous hack to the String(double) ctor, not just print(double). In the 
demo, we now get:
Complex = (r=4.0, i=2.0)
instead of:
Complex = (r=4.000000e+00, i=2.000000e+00)


Swift SVN r1583
2012-04-24 04:45:25 +00:00

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15 KiB
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//===-- Immediate.cpp - the swift immediate mode --------------------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2015 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See http://swift.org/LICENSE.txt for license information
// See http://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
//
// This is the implementation of the swift interpreter, which takes a
// TranslationUnit and JITs it.
//
//===----------------------------------------------------------------------===//
#include "Immediate.h"
#include "Frontend.h"
#include "swift/Subsystems.h"
#include "swift/IRGen/Options.h"
#include "swift/Parse/Lexer.h"
#include "swift/AST/ASTContext.h"
#include "swift/AST/Component.h"
#include "swift/AST/Decl.h"
#include "swift/AST/Diagnostics.h"
#include "swift/AST/Module.h"
#include "swift/AST/Stmt.h"
#include "swift/Basic/DiagnosticConsumer.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/ExecutionEngine/JIT.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Host.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/Support/Process.h"
#include "llvm/Support/Signals.h"
#include "llvm/Support/SourceMgr.h"
#include "llvm/Support/system_error.h"
#include "llvm/Support/TargetSelect.h"
#include "llvm/Linker.h"
#include "llvm/LLVMContext.h"
#include "llvm/Module.h"
#include <cmath>
#include <histedit.h>
#include <dlfcn.h>
using namespace swift;
static void LoadSwiftRuntime() {
// FIXME: Need error-checking.
llvm::sys::Path LibPath =
llvm::sys::Path::GetMainExecutable(0, (void*)&swift::RunImmediately);
LibPath.eraseComponent();
LibPath.eraseComponent();
LibPath.appendComponent("lib");
LibPath.appendComponent("libswift_abi.dylib");
dlopen(LibPath.c_str(), 0);
}
static bool IRGenImportedModules(TranslationUnit *TU,
llvm::ExecutionEngine *EE,
llvm::Module &Module,
llvm::SmallPtrSet<TranslationUnit*, 8>
&ImportedModules,
irgen::Options &Options) {
// IRGen the modules this module depends on.
llvm::SmallVector<llvm::Function*, 4> InitFuncs;
for (auto ModPair : TU->getImportedModules()) {
if (isa<BuiltinModule>(ModPair.second))
continue;
TranslationUnit *SubTU = cast<TranslationUnit>(ModPair.second);
if (!ImportedModules.insert(SubTU))
continue;
// FIXME: Need to check whether this is actually safe in general.
llvm::Module SubModule(SubTU->Name.str(), Module.getContext());
performCaptureAnalysis(SubTU);
performIRGeneration(Options, &SubModule, SubTU);
if (TU->Ctx.hadError())
return true;
std::string ErrorMessage;
if (llvm::Linker::LinkModules(&Module, &SubModule,
llvm::Linker::DestroySource,
&ErrorMessage)) {
llvm::errs() << "Error linking swift modules\n";
llvm::errs() << ErrorMessage << "\n";
return true;
}
// FIXME: This is an ugly hack; need to figure out how this should
// actually work.
SmallVector<char, 20> NameBuf;
StringRef InitFnName = (SubTU->Name.str() + ".init").toStringRef(NameBuf);
llvm::Function *InitFn = Module.getFunction(InitFnName);
if (InitFn)
InitFuncs.push_back(InitFn);
}
for (auto InitFn : InitFuncs)
EE->runFunctionAsMain(InitFn, std::vector<std::string>(), 0);
return false;
}
void swift::RunImmediately(TranslationUnit *TU) {
ASTContext &Context = TU->Ctx;
irgen::Options Options;
Options.OutputFilename = "";
Options.Triple = llvm::sys::getDefaultTargetTriple();
Options.OptLevel = 0;
Options.OutputKind = irgen::OutputKind::Module;
// IRGen the main module.
llvm::LLVMContext LLVMContext;
llvm::Module Module(TU->Name.str(), LLVMContext);
performCaptureAnalysis(TU);
performIRGeneration(Options, &Module, TU);
if (Context.hadError())
return;
// Build the ExecutionEngine.
llvm::EngineBuilder builder(&Module);
std::string ErrorMsg;
builder.setErrorStr(&ErrorMsg);
builder.setEngineKind(llvm::EngineKind::JIT);
llvm::ExecutionEngine *EE = builder.create();
LoadSwiftRuntime();
llvm::SmallPtrSet<TranslationUnit*, 8> ImportedModules;
if (IRGenImportedModules(TU, EE, Module, ImportedModules, Options))
return;
// Run the generated program.
llvm::Function *EntryFn = Module.getFunction("main");
EE->runFunctionAsMain(EntryFn, std::vector<std::string>(), 0);
}
struct EditLineWrapper {
EditLine *e;
History *h;
size_t PromptContinuationLevel;
bool NeedPromptContinuation;
llvm::SmallString<80> PromptString;
EditLineWrapper() {
e = el_init("swift", stdin, stdout, stderr);
h = history_init();
PromptContinuationLevel = 0;
el_set(e, EL_EDITOR, "emacs");
el_set(e, EL_PROMPT, PromptFn);
el_set(e, EL_CLIENTDATA, (void*)this);
el_set(e, EL_HIST, history, h);
HistEvent ev;
history(h, &ev, H_SETSIZE, 800);
}
static char *PromptFn(EditLine *e) {
void* clientdata;
el_get(e, EL_CLIENTDATA, &clientdata);
return (char*)((EditLineWrapper*)clientdata)->getPrompt();
}
const char *getPrompt() {
if (!NeedPromptContinuation)
return "swift> ";
PromptString = "swift| ";
PromptString.append(2*PromptContinuationLevel, ' ');
return PromptString.c_str();
};
~EditLineWrapper() {
el_end(e);
}
operator EditLine*() { return e; }
};
void swift::REPL(ASTContext &Context) {
// FIXME: We should do something a bit more elaborate than
// "allocate a 1MB buffer and hope it's enough".
llvm::MemoryBuffer *Buffer =
llvm::MemoryBuffer::getNewMemBuffer(1 << 20, "<REPL Buffer>");
Component *Comp = new (Context.Allocate<Component>(1)) Component();
unsigned BufferID =
Context.SourceMgr.AddNewSourceBuffer(Buffer, llvm::SMLoc());
Identifier ID = Context.getIdentifier("REPL");
TranslationUnit *TU = new (Context) TranslationUnit(ID, Comp, Context,
/*IsMainModule=*/true,
/*IsReplModule=*/true);
llvm::SmallPtrSet<TranslationUnit*, 8> ImportedModules;
llvm::LLVMContext LLVMContext;
llvm::Module Module("REPL", LLVMContext);
llvm::Module DumpModule("REPL", LLVMContext);
LoadSwiftRuntime();
llvm::EngineBuilder builder(&Module);
std::string ErrorMsg;
builder.setErrorStr(&ErrorMsg);
builder.setEngineKind(llvm::EngineKind::JIT);
llvm::ExecutionEngine *EE = builder.create();
irgen::Options Options;
Options.OutputFilename = "";
Options.Triple = llvm::sys::getDefaultTargetTriple();
Options.OptLevel = 0;
Options.OutputKind = irgen::OutputKind::Module;
Options.IsREPL = true;
EditLineWrapper e;
char* CurBuffer = const_cast<char*>(Buffer->getBufferStart());
unsigned CurBufferOffset = 0;
unsigned CurBufferEndOffset = 0;
unsigned CurTUElem = 0;
unsigned CurIRGenElem = 0;
unsigned BraceCount = 0;
bool HadLineContinuation = false;
unsigned CurChunkLines = 0;
// Force swift.swift to be parsed/type-checked immediately. This forces
// any errors to appear upfront, and helps eliminate some nasty lag after
// the first statement is typed into the REPL.
const char importstmt[] = "import swift\n";
strcpy(CurBuffer, importstmt);
CurBuffer += strlen(importstmt);
CurBufferEndOffset += strlen(importstmt);
swift::appendToMainTranslationUnit(TU, BufferID, CurTUElem,
CurBufferOffset,
CurBufferEndOffset);
if (Context.hadError())
return;
CurTUElem = CurIRGenElem = TU->Decls.size();
if (llvm::sys::Process::StandardInIsUserInput())
printf("%s", "Welcome to swift. Type ':help' for assistance.\n");
if (IRGenImportedModules(TU, EE, Module, ImportedModules, Options))
return;
// Force upfront IRGen for swift.swift, to make the prompt more responsive.
// FIXME: We really shouldn't be JIT'ing swift.swift in the first place.
for (llvm::Function& F : Module)
EE->getPointerToFunction(&F);
while (1) {
// Read one line.
e.PromptContinuationLevel = BraceCount;
e.NeedPromptContinuation = BraceCount != 0 || HadLineContinuation;
int LineCount;
const char* Line = el_gets(e, &LineCount);
if (!Line)
return;
size_t LineLen = strlen(Line);
memcpy(CurBuffer, Line, LineLen);
// Special-case backslash for line continuations in the REPL.
bool HaveLineContinuation = false;
if (LineLen > 1 && Line[LineLen-1] == '\n' && Line[LineLen-2] == '\\') {
HaveLineContinuation = true;
CurBuffer[LineLen-2] = '\n';
CurBuffer[LineLen-1] = '\0';
LineLen -= 1;
}
// Enter the line into the line history.
// FIXME: We should probably be a bit more clever here about which lines we
// put into the history and when we put them in.
HistEvent ev;
history(e.h, &ev, H_ENTER, CurBuffer);
CurBuffer += LineLen;
CurBufferEndOffset += LineLen;
++CurChunkLines;
// If we detect a line starting with a colon, treat it as a special
// REPL escape. If we detect unbalanced braces, keep reading before
// we start parsing.
Lexer L(Line, Context.SourceMgr, nullptr);
Token Tok;
L.lex(Tok);
if (CurChunkLines == 1 && !BraceCount && Tok.is(tok::colon)) {
if (L.peekNextToken().getText() == "help") {
printf("%s", "I'm not helpful yet, but use :quit to exit\n");
} else if (L.peekNextToken().getText() == "quit" ||
L.peekNextToken().getText() == "exit") {
return;
} else if (L.peekNextToken().getText() == "dump_ir") {
DumpModule.dump();
} else {
printf("%s", "Unknown interpreter escape; try :help\n");
}
CurBufferOffset = CurBufferEndOffset;
CurChunkLines = 0;
continue;
}
do {
if (Tok.is(tok::l_brace))
++BraceCount;
else if (Tok.is(tok::r_brace) && BraceCount > 0)
--BraceCount;
else if (Tok.is(tok::eof))
break;
L.lex(Tok);
} while (1);
if (BraceCount || HaveLineContinuation)
continue;
// Parse the current line(s).
bool ShouldRun =
swift::appendToMainTranslationUnit(TU, BufferID, CurTUElem,
CurBufferOffset,
CurBufferEndOffset);
if (Context.hadError()) {
Context.Diags.resetHadAnyError();
while (TU->Decls.size() > CurTUElem)
TU->Decls.pop_back();
TU->clearUnresolvedIdentifierTypes();
// FIXME: Handling of "import" declarations? Is there any other
// state which needs to be reset?
if (CurChunkLines > 1)
llvm::errs() << "(discarded " << CurChunkLines << " lines)\n";
CurChunkLines = 0;
continue;
}
CurTUElem = TU->Decls.size();
CurChunkLines = 0;
// If we didn't see an expression, statement, or decl which might have
// side-effects, keep reading.
if (!ShouldRun)
continue;
// IRGen the current line(s).
llvm::Module LineModule("REPLLine", LLVMContext);
performCaptureAnalysis(TU, CurIRGenElem);
performIRGeneration(Options, &LineModule, TU, CurIRGenElem);
CurIRGenElem = CurTUElem;
if (Context.hadError())
return;
std::string ErrorMessage;
if (llvm::Linker::LinkModules(&Module, &LineModule,
llvm::Linker::PreserveSource,
&ErrorMessage)) {
llvm::errs() << "Error linking swift modules\n";
llvm::errs() << ErrorMessage << "\n";
return;
}
if (llvm::Linker::LinkModules(&DumpModule, &LineModule,
llvm::Linker::DestroySource,
&ErrorMessage)) {
llvm::errs() << "Error linking swift modules\n";
llvm::errs() << ErrorMessage << "\n";
return;
}
llvm::Function *DumpModuleMain = DumpModule.getFunction("main");
DumpModuleMain->setName("repl.line");
if (IRGenImportedModules(TU, EE, Module, ImportedModules, Options))
return;
// FIXME: The way we do this is really ugly... we should be able to
// improve this.
llvm::Function *EntryFn = Module.getFunction("main");
EE->runFunctionAsMain(EntryFn, std::vector<std::string>(), 0);
EE->freeMachineCodeForFunction(EntryFn);
EntryFn->eraseFromParent();
}
}
// FIXME: We shouldn't be writing implemenetations for functions in the swift
// module in C, and this isn't really an ideal place to put those
// implementations.
extern "C" void _TSs5printFT3valNSs5Int64_T_(int64_t l) {
printf("%lld", l);
}
extern "C" void _TSs5printFT3valNSs6Double_T_(double l) {
char Buffer[256];
sprintf(Buffer, "%g", l);
if (llvm::StringRef((char*)Buffer).find_first_of(".e") == llvm::StringRef::npos)
strcat(Buffer, ".0");
printf("%s", Buffer);
}
extern "C" void _TSs9printCharFT9characterNSs5Int32_T_(int32_t l) {
printf("%c", (char)l);
}
// String implementation.
// func [infix_left=190] + (lhs : String,
// rhs : String) -> String
extern "C" char* _TSsop1pFT3lhsNSs6String3rhsS__S_(char* lhs, char* rhs) {
size_t ls = strlen(lhs);
size_t rs = strlen(rhs);
char* s = (char*)malloc(ls+rs+1);
memcpy(s, lhs, ls);
strcpy(s+ls, rhs);
return s;
}
// static func String(v : Int128) -> String
extern "C" char *_TNSs6String6StringFT1vNSs6Int128_S_(__int128_t X) {
char TmpBuffer[128];
char *P = TmpBuffer+128;
*--P = 0; // Null terminate buffer.
bool WasNeg = X < 0;
__uint128_t Y = WasNeg ? -X : X;
if (Y == 0) *--P = 0; // Special case.
while (Y) {
*--P = '0' + char(Y % 10);
Y /= 10;
}
if (WasNeg) *--P = '-';
return strdup(P);
}
// static func String(v : Double) -> String
extern "C" char *_TNSs6String6StringFT1vNSs6Double_S_(double X) {
char Buffer[256];
sprintf(Buffer, "%g", X);
if (llvm::StringRef((char*)Buffer).find_first_of(".e") ==
llvm::StringRef::npos)
strcat(Buffer, ".0");
return strdup(Buffer);
}
extern "C" bool _TNSs4Bool13getLogicValuefRS_FT_i1(bool* b) {
return *b;
}
extern "C" void _TSs4exitFT8exitCodeNSs5Int64_T_(int64_t l) {
exit(l);
}
extern "C" void _TSs5abortFT_T_() {
abort();
}
extern "C" double _TSs4sqrtFT1aNSs6Double_S_(double X) { return sqrt(X); }
extern "C" float _TSs4sqrtFT1aNSs5Float_S_(float X) {
return sqrtf(X);
}
extern "C" double _TSs3sinFT1aNSs6Double_S_(double X) { return sin(X); }
extern "C" float _TSs3sinFT1aNSs5Float_S_(float X) {
return sinf(X);
}
extern "C" double _TSs3cosFT1aNSs6Double_S_(double X) { return cos(X); }
extern "C" float _TSs3cosFT1aNSs5Float_S_(float X) {
return cosf(X);
}
extern "C" double _TSs5atan2FT1yNSs6Double1xS__S_(double Y, double X) {
return atan2(Y, X);
}
extern "C" float _TSs5atan2FT1yNSs5Float1xS__S_(float Y, float X) {
return atan2f(Y, X);
}
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