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// See LICENSE for license details.
package firrtlTests
import java.io._
import org.scalatest._
import org.scalatest.prop._
import firrtl._
import firrtl.ir.Circuit
import firrtl.passes._
import firrtl.Parser.IgnoreInfo
class WidthSpec extends FirrtlFlatSpec {
private def executeTest(input: String, expected: Seq[String], passes: Seq[Pass]) = {
val c = passes.foldLeft(Parser.parse(input.split("\n").toIterator)) {
(c: Circuit, p: Pass) => p.run(c)
}
val lines = c.serialize.split("\n") map normalized
expected foreach { e =>
lines should contain(e)
}
}
case class LiteralWidthCheck(lit: BigInt, uIntWidth: Option[BigInt], sIntWidth: BigInt)
val litChecks = Seq(
LiteralWidthCheck(-4, None, 3),
LiteralWidthCheck(-3, None, 3),
LiteralWidthCheck(-2, None, 2),
LiteralWidthCheck(-1, None, 1),
LiteralWidthCheck(0, Some(1), 1), // TODO https://github.com/freechipsproject/firrtl/pull/530
LiteralWidthCheck(1, Some(1), 2),
LiteralWidthCheck(2, Some(2), 3),
LiteralWidthCheck(3, Some(2), 3),
LiteralWidthCheck(4, Some(3), 4)
)
for (LiteralWidthCheck(lit, uwo, sw) <- litChecks) {
import firrtl.ir.{UIntLiteral, SIntLiteral, IntWidth}
s"$lit" should s"have signed width $sw" in {
SIntLiteral(lit).width should equal (IntWidth(sw))
}
uwo.foreach { uw =>
it should s"have unsigned width $uw" in {
UIntLiteral(lit).width should equal (IntWidth(uw))
}
}
}
"Dshl by 20 bits" should "result in an error" in {
val passes = Seq(
ToWorkingIR,
CheckHighForm,
ResolveKinds,
InferTypes,
CheckTypes,
InferWidths,
CheckWidths)
val input =
"""circuit Unit :
| module Unit :
| input x: UInt<3>
| input y: UInt<32>
| output z: UInt
| z <= dshl(x, y)""".stripMargin
// Throws both DshlTooBig and WidthTooBig
// TODO check message
intercept[PassExceptions] {
executeTest(input, Nil, passes)
}
}
"Width >= MaxWidth" should "result in an error" in {
val passes = Seq(
ToWorkingIR,
CheckHighForm,
ResolveKinds,
InferTypes,
CheckTypes,
InferWidths,
CheckWidths)
val input =
s"""circuit Unit :
| module Unit :
| input x: UInt<${CheckWidths.MaxWidth}>
""".stripMargin
intercept[CheckWidths.WidthTooBig] {
executeTest(input, Nil, passes)
}
}
"Circular reg depending on reg + 1" should "error" in {
val passes = Seq(
ToWorkingIR,
CheckHighForm,
ResolveKinds,
InferTypes,
CheckTypes,
InferWidths,
CheckWidths)
val input =
"""circuit Unit :
| module Unit :
| input clock: Clock
| input reset: UInt<1>
| reg r : UInt, clock with :
| reset => (reset, UInt(3))
| node T_7 = add(r, r)
| r <= T_7
|""".stripMargin
intercept[CheckWidths.UninferredWidth] {
executeTest(input, Nil, passes)
}
}
"Add of UInt<2> and SInt<2>" should "error" in {
val passes = Seq(
ToWorkingIR,
CheckHighForm,
ResolveKinds,
InferTypes,
CheckTypes,
InferWidths)
val input =
"""circuit Unit :
| module Unit :
| input x: UInt<2>
| input y: SInt<2>
| output z: SInt
| z <= add(x, y)""".stripMargin
val check = Seq( "output z : SInt<4>")
intercept[PassExceptions] {
executeTest(input, check, passes)
}
}
"SInt<2> - UInt<3>" should "error" in {
val passes = Seq(
ToWorkingIR,
CheckHighForm,
ResolveKinds,
InferTypes,
CheckTypes,
InferWidths)
val input =
"""circuit Unit :
| module Unit :
| input x: UInt<3>
| input y: SInt<2>
| output z: SInt
| z <= sub(y, x)""".stripMargin
val check = Seq( "output z : SInt<5>")
intercept[PassExceptions] {
executeTest(input, check, passes)
}
}
}
|
