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Commit 559c72dc authored by Kunshan Wang's avatar Kunshan Wang
Browse files

Tested parser.

parent 3323a4b7
......@@ -2,8 +2,9 @@ package uvm
import uvm.types._
import uvm.ssavariables._
import scala.collection.mutable.HashMap
class Bundle {
abstract class Bundle {
/*
* There is a hierarchy of namespaces. A subnode is a subset of the parent.
*
......@@ -35,7 +36,30 @@ class Bundle {
val globalCellNs = globalVarNs.makeSubSpace[GlobalCell]()
val funcNs = globalVarNs.makeSubSpace[Function]()
val expFuncNs = globalVarNs.makeSubSpace[ExposedFunc]()
}
/**
* This kind of bundle is generated when parsing a .UIR file.
* <p>
* In this kind of bundle, a Function does not have a FuncVer as its version.
* The funcNs only contains new functions declared in this bundle, not existing
* functions declared previously. When this bundle is merged with the global bundle,
* both funcNs and funcVerNs are simply merged, and new FuncVer objects become the
* newest version of the Function, whether the Function is newly declared or not.
*/
class TrantientBundle extends Bundle {
/**
* All functions (declared here or previously) that are defined in this bundle.
* <p>
* Mainly for debugging purpose.
*/
//val defFuncNs = new SimpleNamespace[Function]
}
/**
* This kind of bundle holds the global state. Functions and versions are fully merged.
*/
class GlobalBundle extends Bundle {
private def simpleMerge[T <: Identified](oldNs: Namespace[T], newNs: Namespace[T]) {
for (cand <- newNs.all) {
try {
......@@ -49,7 +73,13 @@ class Bundle {
}
}
def merge(newBundle: Bundle) {
private def redefineFunctions(newNs: Namespace[FuncVer]) {
for (fv <- newNs.all) {
fv.func.versions = fv :: fv.func.versions
}
}
def merge(newBundle: TrantientBundle) {
// Only merge leaves
simpleMerge(typeNs, newBundle.typeNs)
simpleMerge(funcSigNs, newBundle.funcSigNs)
......@@ -58,5 +88,8 @@ class Bundle {
simpleMerge(globalCellNs, newBundle.globalCellNs)
simpleMerge(funcNs, newBundle.funcNs)
simpleMerge(expFuncNs, newBundle.expFuncNs)
redefineFunctions(newBundle.funcVerNs)
}
}
}
\ No newline at end of file
......@@ -18,12 +18,12 @@ class UIRTextReader(val idFactory: IDFactory) {
import UIRTextReader._
import uvm.ir.textinput.Later.Laterable
def read(ir: String, globalBundle: Bundle): Bundle = {
def read(ir: String, globalBundle: GlobalBundle): TrantientBundle = {
val input = new ANTLRInputStream(ir)
read(ir, input, globalBundle)
}
def read(ir: java.io.Reader, globalBundle: Bundle): Bundle = {
def read(ir: java.io.Reader, globalBundle: GlobalBundle): TrantientBundle = {
val sb = new StringBuilder()
val cb = new Array[Char](4096)
......@@ -57,7 +57,7 @@ class UIRTextReader(val idFactory: IDFactory) {
def getMessages(): String = buf.mkString("\n")
}
def read(source: String, ais: ANTLRInputStream, globalBundle: Bundle): Bundle = {
def read(source: String, ais: ANTLRInputStream, globalBundle: GlobalBundle): TrantientBundle = {
val ea = new AccumulativeAntlrErrorListener(source)
val lexer = new UIRLexer(ais)
......@@ -144,8 +144,8 @@ class UIRTextReader(val idFactory: IDFactory) {
case e: Exception => throw new TextIRParsingException(inCtx(ctx, s), e)
}
def read(ir: IrContext, globalBundle: Bundle): Bundle = {
val bundle = new Bundle()
def read(ir: IrContext, globalBundle: GlobalBundle): TrantientBundle = {
val bundle = new TrantientBundle()
// Resolve global entities. (If any resXxxx is not present, that's because it is simply not currently used)
......@@ -364,6 +364,7 @@ class UIRTextReader(val idFactory: IDFactory) {
}
case fdef: FuncDefContext => {
val func = findOldFunc(fdef.nam).getOrElse(declFunc(fdef.nam, fdef.funcSig))
//bundle.defFuncNs.add(func)
funcDefs += ((func, fdef))
}
case edef: FuncExpDefContext => {
......@@ -385,7 +386,7 @@ class UIRTextReader(val idFactory: IDFactory) {
addFuncVer(ver)
ver.func = func
func.versions = ver :: func.versions
//func.versions = ver :: func.versions // Don't override here. Let the MicroVM redefine functions.
def globalizeBB(name: String): String = globalize(name, verName)
......
......@@ -153,7 +153,6 @@ case class KillOld() extends CurStackAction
abstract class NewStackAction
case class PassValue(var argTy: Type, var arg: SSAVariable) extends NewStackAction
case class PassVoid() extends NewStackAction
case class ThrowExc(var exc: SSAVariable) extends NewStackAction
/**
......
......@@ -717,6 +717,6 @@ class TextIRWriterTest extends FlatSpec with Matchers {
println(ir)
val muBundle = new UIRTextReader(new IDFactory).read(ir, new uvm.Bundle())
val muBundle = new UIRTextReader(new IDFactory).read(ir, new uvm.GlobalBundle())
}
}
\ No newline at end of file
......@@ -3,25 +3,25 @@ package uvm.ir.textinput
import org.scalatest.FlatSpec
import org.scalatest.Matchers
import uvm.Bundle
import uvm.GlobalBundle
import uvm.TrantientBundle
class NicerErrorMessage extends FlatSpec with Matchers
with TestingBundlesValidators {
def parseFile(fileName: String, globalBundle: Bundle, fac: Option[IDFactory] = None): Bundle = {
def parseFile(fileName: String, globalBundle: GlobalBundle, fac: Option[IDFactory] = None): TrantientBundle = {
val idf = fac.getOrElse(new IDFactory())
val r = new UIRTextReader(idf)
val ir = r.read(new java.io.FileReader(fileName), globalBundle)
ir
}
val EMPTY_BUNDLE = new Bundle()
behavior of "UIRTextReader"
it should "give nice error messages" in {
try {
val b = parseFile("tests/uvm-parsing-test/bundle-with-error.uir", EMPTY_BUNDLE)
val gb = new GlobalBundle()
val b = parseFile("tests/uvm-parsing-test/bundle-with-error.uir", gb)
} catch {
case e: TextIRParsingException => // expected
e.printStackTrace()
......
</
......@@ -3,10 +3,9 @@ package uvm.ir.textinput
import org.scalatest._
import uvm._
import uvm.types._
import uvm.ssavariables._
import uvm.comminsts._
import UIRTextReader.globalize
import uvm.ssavariables._
import uvm.types._
trait TestingBundlesValidators extends Matchers with ExtraMatchers {
......@@ -22,7 +21,7 @@ trait TestingBundlesValidators extends Matchers with ExtraMatchers {
def funcVer(s: String) = b.funcVerNs(s)
def expFunc(s: String) = b.expFuncNs(s)
}
implicit class MagicalThe(c: FuncVer) {
def globalName(s: String) = UIRTextReader.globalize(s, c.name.get)
def bb(s: String) = c.bbNs(UIRTextReader.globalize(s, c.name.get))
......@@ -35,7 +34,7 @@ trait TestingBundlesValidators extends Matchers with ExtraMatchers {
def inst(s: String) = d.localVarNs(UIRTextReader.globalize(s, d.name.get))
}
def validateTypes(bundle: Bundle) {
def validateTypes(bundle: GlobalBundle) {
val our = bundle
our ty "@i1" shouldBeATypeIntOf(1)
......@@ -149,7 +148,7 @@ trait TestingBundlesValidators extends Matchers with ExtraMatchers {
our anything "@sig0" shouldBe sig0
}
def validateConstants(bundle: Bundle) {
def validateConstants(bundle: GlobalBundle) {
val our = bundle
our const "@ci8" shouldBeAConstIntOf (8, 127)
......@@ -268,7 +267,7 @@ trait TestingBundlesValidators extends Matchers with ExtraMatchers {
our anything "@gi64" shouldBe gi64
}
def validateFunctions(bundle: Bundle) {
def validateFunctions(bundle: GlobalBundle) {
val our = bundle
our sig "@foo" shouldBeA[FuncSig] { its =>
......@@ -359,12 +358,16 @@ trait TestingBundlesValidators extends Matchers with ExtraMatchers {
val ver = func.versions.head
f(func, ver)
}
def in(funcVer: FuncVer)(f: FuncVer => Unit) {
f(funcVer)
}
def in(b: BasicBlock)(f: BasicBlock => Unit) {
def in(b: BasicBlock)(f: BasicBlock => Unit) {
f(b)
}
def validateInstructions(bundle: Bundle) {
def validateInstructions(bundle: GlobalBundle) {
val our = bundle
in (our func "@intBinOpTest") { (func, the) =>
......@@ -725,539 +728,590 @@ trait TestingBundlesValidators extends Matchers with ExtraMatchers {
}
}
/*
in (our func "@aggregate") { (func, the) =>
val my = ver
my inst "%e0" shouldBeA[InstExtractValue] { its =>
its.strTy shouldBe (our ty "@sid")
its.index shouldBe 0
its.opnd shouldBe (our value "@sid1")
}
my inst "%e1" shouldBeA[InstExtractValue] { its =>
its.strTy shouldBe (our ty "@sid")
its.index shouldBe 1
its.opnd shouldBe (our value "@sid1")
}
my inst "%i0" shouldBeA[InstInsertValue] { its =>
its.strTy shouldBe (our ty "@sid")
its.index shouldBe 0
its.opnd shouldBe (our value "@sid1")
its.newVal shouldBe (our value "@I64_0")
}
my inst "%i1" shouldBeA[InstInsertValue] { its =>
its.strTy shouldBe (our ty "@sid")
its.index shouldBe 1
its.opnd shouldBe (our value "@sid1")
its.newVal shouldBe (our value "@D_0")
}
my inst "%ee0" shouldBeA[InstExtractElement] { its =>
its.vecTy shouldBe (our ty "@4xfloat")
its.indTy shouldBe (our ty "@i32")
its.opnd shouldBe (our value "@v1")
its.index shouldBe (our value "@I32_0")
}
my inst "%ie0" shouldBeA[InstInsertElement] { its =>
its.vecTy shouldBe (our ty "@4xfloat")
its.indTy shouldBe (our ty "@i32")
its.opnd shouldBe (our value "@v1")
its.index shouldBe (our value "@I32_1")
its.newVal shouldBe (our value "@F_1")
}
in(the bb "%entry") { my =>
my inst "%sv0" shouldBeA[InstShuffleVector] { its =>
its.vecTy shouldBe (our ty "@4xfloat")
its.maskTy shouldBe (our ty "@4xi32")
its.vec1 shouldBe (our value "@v1")
its.vec2 shouldBe (our value "@v2")
its.mask shouldBe (our value "@vshf")
my inst "%e0" shouldBeA[InstExtractValue] { its =>
its.strTy shouldBe (our ty "@sid")
its.index shouldBe 0
its.opnd shouldBe (our value "@sid1")
}
my inst "%e1" shouldBeA[InstExtractValue] { its =>
its.strTy shouldBe (our ty "@sid")
its.index shouldBe 1
its.opnd shouldBe (our value "@sid1")
}
my inst "%i0" shouldBeA[InstInsertValue] { its =>
its.strTy shouldBe (our ty "@sid")
its.index shouldBe 0
its.opnd shouldBe (our value "@sid1")
its.newVal shouldBe (our value "@I64_0")
}
my inst "%i1" shouldBeA[InstInsertValue] { its =>
its.strTy shouldBe (our ty "@sid")
its.index shouldBe 1
its.opnd shouldBe (our value "@sid1")
its.newVal shouldBe (our value "@D_0")
}
my inst "%ee0" shouldBeA[InstExtractElement] { its =>
its.seqTy shouldBe (our ty "@4xfloat")
its.indTy shouldBe (our ty "@i32")
its.opnd shouldBe (our value "@v1")
its.index shouldBe (our value "@I32_0")
}
my inst "%ie0" shouldBeA[InstInsertElement] { its =>
its.seqTy shouldBe (our ty "@4xfloat")
its.indTy shouldBe (our ty "@i32")
its.opnd shouldBe (our value "@v1")
its.index shouldBe (our value "@I32_1")
its.newVal shouldBe (our value "@F_1")
}
my inst "%sv0" shouldBeA[InstShuffleVector] { its =>
its.vecTy shouldBe (our ty "@4xfloat")
its.maskTy shouldBe (our ty "@4xi32")
its.vec1 shouldBe (our value "@v1")
its.vec2 shouldBe (our value "@v2")
its.mask shouldBe (our value "@vshf")
}
}
}
in (our func "@memops") { (func, the) =>
val my = ver
my inst "%new" shouldBeA[InstNew] { its =>
its.allocTy shouldBe (our ty "@i64")
its.excClause shouldBe None
}
my inst "%newhybrid" shouldBeA[InstNewHybrid] { its =>
its.allocTy shouldBe (our ty "@hic")
its.lenTy shouldBe (our ty "@i64")
its.length shouldBe (my param "%p0")
its.excClause shouldBe None
}
my inst "%alloca" shouldBeA[InstAlloca] { its =>
its.allocTy shouldBe (our ty "@i64")
its.excClause shouldBe None
}
my inst "%allocahybrid" shouldBeA[InstAllocaHybrid] { its =>
its.allocTy shouldBe (our ty "@hic")
its.lenTy shouldBe (our ty "@i64")
its.length shouldBe (my param "%p0")
its.excClause shouldBe None
}
my inst "%new_s" shouldBeA[InstNew] { its =>
its.allocTy shouldBe (our ty "@i64")
its.excClause shouldBe Some(ExcClause((my bb "%bb2"), (my bb "%handler")))
}
my inst "%newhybrid_s" shouldBeA[InstNewHybrid] { its =>
its.allocTy shouldBe (our ty "@hic")
its.lenTy shouldBe (our ty "@i64")
its.length shouldBe (my param "%p0")
its.excClause shouldBe Some(ExcClause((my bb "%bb3"), (my bb "%handler")))
}
my inst "%alloca_s" shouldBeA[InstAlloca] { its =>
its.allocTy shouldBe (our ty "@i64")
its.excClause shouldBe Some(ExcClause((my bb "%bb4"), (my bb "%handler")))
}
my inst "%allocahybrid_s" shouldBeA[InstAllocaHybrid] { its =>
its.allocTy shouldBe (our ty "@hic")
its.lenTy shouldBe (our ty "@i64")
its.length shouldBe (my param "%p0")
its.excClause shouldBe Some(ExcClause((my bb "%bb5"), (my bb "%handler")))
}
my inst "%new2" shouldBeA[InstNew] { its =>
its.allocTy shouldBe (our ty "@sid")
its.excClause shouldBe None
}
my inst "%alloca2" shouldBeA[InstAlloca] { its =>
its.allocTy shouldBe (our ty "@al")
its.excClause shouldBe None
}
my inst "%getiref" shouldBeA[InstGetIRef] { its =>
its.referentTy shouldBe (our ty "@sid")
its.opnd shouldBe (my inst "%new2")
}
my inst "%getfieldiref" shouldBeA[InstGetFieldIRef] { its =>
its.ptr shouldBe false
its.referentTy shouldBe (our ty "@sid")
its.index shouldBe 0
its.opnd shouldBe (my inst "%getiref")
}
my inst "%getelemiref" shouldBeA[InstGetElemIRef] { its =>
its.ptr shouldBe false
its.referentTy shouldBe (our ty "@al")
its.indTy shouldBe (our ty "@i64")
its.opnd shouldBe (my inst "%alloca2")
its.index shouldBe (my param "%p1")
}
my inst "%shiftiref" shouldBeA[InstShiftIRef] { its =>
its.ptr shouldBe false
its.referentTy shouldBe (our ty "@i8")
its.offTy shouldBe (our ty "@i64")
its.opnd shouldBe (my inst "%getvarpartiref")
its.offset shouldBe (my param "%p1")
}
in(the bb "%entry") { my =>
my inst "%new" shouldBeA[InstNew] { its =>
its.allocTy shouldBe (our ty "@i64")
its.excClause shouldBe None
}
my inst "%newhybrid" shouldBeA[InstNewHybrid] { its =>
its.allocTy shouldBe (our ty "@hic")
its.lenTy shouldBe (our ty "@i64")
its.length shouldBe (my param "%p0")
its.excClause shouldBe None
}
my inst "%alloca" shouldBeA[InstAlloca] { its =>
its.allocTy shouldBe (our ty "@i64")
its.excClause shouldBe None
}
my inst "%allocahybrid" shouldBeA[InstAllocaHybrid] { its =>
its.allocTy shouldBe (our ty "@hic")
its.lenTy shouldBe (our ty "@i64")
its.length shouldBe (my param "%p0")
its.excClause shouldBe None
}
my inst "%getfixedpartiref" shouldBeA[InstGetFixedPartIRef] { its =>
its.ptr shouldBe false
its.referentTy shouldBe (our ty "@hic")
its.opnd shouldBe (my inst "%allocahybrid")
my inst "%new_s" shouldBeA[InstNew] { its =>
its.allocTy shouldBe (our ty "@i64")
its.excClause shouldBe Some(ExcClause(
DestClause(the bb "%bb2", Seq("%alloca", "%allocahybrid", "%p0", "%p1").map(my.value)),
DestClause(the bb "%handler", Seq())))
}
}
my inst "%getvarpartiref" shouldBeA[InstGetVarPartIRef] { its =>
its.ptr shouldBe false
its.referentTy shouldBe (our ty "@hic")
its.opnd shouldBe (my inst "%allocahybrid")
in(the bb "%bb2") { my =>
my inst "%newhybrid_s" shouldBeA[InstNewHybrid] { its =>
its.allocTy shouldBe (our ty "@hic")
its.lenTy shouldBe (our ty "@i64")
its.length shouldBe (my param "%p0")
its.excClause shouldBe Some(ExcClause(
DestClause(the bb "%bb3", Seq("%alloca", "%allocahybrid", "%p0", "%p1").map(my.value)),
DestClause(the bb "%handler", Seq())))
}
}
my inst "%load" shouldBeA[InstLoad] { its =>
its.ptr shouldBe false
its.ord shouldBe MemoryOrder.NOT_ATOMIC
its.referentTy shouldBe (our ty "@i64")
its.loc shouldBe (my inst "%alloca")
its.excClause shouldBe None
in(the bb "%bb3") { my =>
my inst "%alloca_s" shouldBeA[InstAlloca] { its =>
its.allocTy shouldBe (our ty "@i64")
its.excClause shouldBe Some(ExcClause(
DestClause(the bb "%bb4", Seq("%alloca", "%allocahybrid", "%p0", "%p1").map(my.value)),
DestClause(the bb "%handler", Seq())))
}
}
my inst "%store" shouldBeA[InstStore] { its =>
its.ptr shouldBe false
its.ord shouldBe MemoryOrder.NOT_ATOMIC
its.referentTy shouldBe (our ty "@i64")
its.loc shouldBe (my inst "%alloca")
its.newVal shouldBe (our const "@I64_42")
its.excClause shouldBe None
in(the bb "%bb4") { my =>
my inst "%allocahybrid_s" shouldBeA[InstAllocaHybrid] { its =>
its.allocTy shouldBe (our ty "@hic")
its.lenTy shouldBe (our ty "@i64")
its.length shouldBe (my param "%p0")
its.excClause shouldBe Some(ExcClause(
DestClause(the bb "%bb5", Seq("%alloca", "%allocahybrid", "%p1").map(my.value)),
DestClause(the bb "%handler", Seq())))
}
}
in(the bb "%bb5") { my =>
my inst "%new2" shouldBeA[InstNew] { its =>
its.allocTy shouldBe (our ty "@sid")
its.excClause shouldBe None
}
my inst "%alloca2" shouldBeA[InstAlloca] { its =>
its.allocTy shouldBe (our ty "@al")
its.excClause shouldBe None
}
my inst "%getiref" shouldBeA[InstGetIRef] { its =>
its.referentTy shouldBe (our ty "@sid")
its.opnd shouldBe (my inst "%new2")
}
my inst "%getfieldiref" shouldBeA[InstGetFieldIRef] { its =>
its.ptr shouldBe false
its.referentTy shouldBe (our ty "@sid")
its.index shouldBe 0
its.opnd shouldBe (my inst "%getiref")
}
my inst "%getelemiref" shouldBeA[InstGetElemIRef] { its =>
its.ptr shouldBe false
its.referentTy shouldBe (our ty "@al")
its.indTy shouldBe (our ty "@i64")
its.opnd shouldBe (my inst "%alloca2")
its.index shouldBe (my param "%p1")
}
my inst "%shiftiref" shouldBeA[InstShiftIRef] { its =>
its.ptr shouldBe false
its.referentTy shouldBe (our ty "@i8")
its.offTy shouldBe (our ty "@i64")
its.opnd shouldBe (my inst "%getvarpartiref")
its.offset shouldBe (my param "%p1")
}
my inst "%getfixedpartiref" shouldBeA[InstGetFixedPartIRef] { its =>
its.ptr shouldBe false
its.referentTy shouldBe (our ty "@hic")
its.opnd shouldBe (my inst "%allocahybrid")
}
my inst "%getvarpartiref" shouldBeA[InstGetVarPartIRef] { its =>
its.ptr shouldBe false
its.referentTy shouldBe (our ty "@hic")
its.opnd shouldBe (my inst "%allocahybrid")
}
my inst "%load" shouldBeA[InstLoad] { its =>
its.ptr shouldBe false
its.ord shouldBe MemoryOrder.NOT_ATOMIC
its.referentTy shouldBe (our ty "@i64")
its.loc shouldBe (my inst "%alloca")
its.excClause shouldBe None
}
my inst "%store" shouldBeA[InstStore] { its =>
its.ptr shouldBe false
its.ord shouldBe MemoryOrder.NOT_ATOMIC
its.referentTy shouldBe (our ty "@i64")
its.loc shouldBe (my inst "%alloca")
its.newVal shouldBe (our const "@I64_42")
its.excClause shouldBe None
}
my inst "%cmpxchg" shouldBeA[InstCmpXchg] { its =>
its.ptr shouldBe false
its.ordSucc shouldBe MemoryOrder.SEQ_CST
its.ordFail shouldBe MemoryOrder.SEQ_CST
its.referentTy shouldBe (our ty "@i64")
its.loc shouldBe (my inst "%alloca")
its.expected shouldBe (our const "@I64_42")