Added fabrics for LabeledPolynomial and NumberedPolynomial.

2022-03-22 17:09:33 +03:00 · 2022-03-22 17:09:33 +03:00 · d75a41482d
commit d75a41482d
parent 5b8d6b601e
2 changed files with 158 additions and 144 deletions
--- a/kmath-functions/src/commonMain/kotlin/space/kscience/kmath/functions/LabeledPolynomial.kt
+++ b/kmath-functions/src/commonMain/kotlin/space/kscience/kmath/functions/LabeledPolynomial.kt
@ -54,59 +54,86 @@ internal constructor(
 */
 internal fun Map<Symbol, UInt>.cleanUp() = filterValues { it > 0U }
-//context(LabeledPolynomialSpace<C, Ring<C>>)
+// Waiting for context receivers :( TODO: Replace with context receivers when they will be available
 //@Suppress("FunctionName")
 //internal fun <C> LabeledPolynomial(coefs: Map<Map<Symbol, UInt>, C>, toCheckInput: Boolean = false) : LabeledPolynomial<C> {
 //    if (!toCheckInput) return LabeledPolynomial(coefs)
 //
 //    val fixedCoefs = mutableMapOf<Map<Symbol, UInt>, C>()
 //
 //    for (entry in coefs) {
 //        val key = entry.key.cleanUp()
 //        val value = entry.value
 //        fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
 //    }
 //
 //    return LabeledPolynomial(
 //        fixedCoefs.filterValues { it.isNotZero() }
 //    )
 //}
 //
 //context(LabeledPolynomialSpace<C, Ring<C>>)
 //@Suppress("FunctionName")
 //internal fun <C> LabeledPolynomial(pairs: Collection<Pair<Map<Symbol, UInt>, C>>, toCheckInput: Boolean = false) : LabeledPolynomial<C> {
 //    if (!toCheckInput) return LabeledPolynomial(pairs.toMap())
 //
 //    val fixedCoefs = mutableMapOf<Map<Symbol, UInt>, C>()
 //
 //    for (entry in pairs) {
 //        val key = entry.first.cleanUp()
 //        val value = entry.second
 //        fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
 //    }
 //
 //    return LabeledPolynomial(
 //        fixedCoefs.filterValues { it.isNotZero() }
 //    )
 //}
 //
 //// TODO: Do not know how to make it without context receivers
 //context(LabeledPolynomialSpace<C, Ring<C>>)
 //@Suppress("FunctionName")
 //public fun <C> LabeledPolynomial(coefs: Map<Map<Symbol, UInt>, C>) : LabeledPolynomial<C> = LabeledPolynomial(coefs, toCheckInput = true)
 //
 //context(LabeledPolynomialSpace<C, Ring<C>>)
 //@Suppress("FunctionName")
 //public fun <C> LabeledPolynomial(pairs: Collection<Pair<Map<Symbol, UInt>, C>>) : LabeledPolynomial<C> = LabeledPolynomial(pairs, toCheckInput = true)
 //
 //context(LabeledPolynomialSpace<C, Ring<C>>)
 //@Suppress("FunctionName")
 //public fun <C> LabeledPolynomial(vararg pairs: Pair<Map<Symbol, UInt>, C>) : LabeledPolynomial<C> = LabeledPolynomial(pairs.toList(), toCheckInput = true)
 //
 //context(LabeledPolynomialSpace<C, Ring<C>>)
 //public fun <C> Symbol.asLabeledPolynomial() : LabeledPolynomial<C> = LabeledPolynomial(mapOf(mapOf(this to 1u) to constantOne))
-public fun <C> C.asLabeledPolynomial() : LabeledPolynomial<C> = LabeledPolynomial(mapOf(emptyMap<Symbol, UInt>() to this))
+@Suppress("FunctionName", "NOTHING_TO_INLINE")
 internal inline fun <C, A: Ring<C>> LabeledPolynomialSpace<C, A>.LabeledPolynomial(coefs: Map<Map<Symbol, UInt>, C>, toCheckInput: Boolean = true) : LabeledPolynomial<C> = ring.LabeledPolynomial(coefs, toCheckInput)
@Suppress("FunctionName")
 internal fun <C, A: Ring<C>> A.LabeledPolynomial(coefs: Map<Map<Symbol, UInt>, C>, toCheckInput: Boolean = true) : LabeledPolynomial<C> {
    if (!toCheckInput) return LabeledPolynomial<C>(coefs)
    val fixedCoefs = mutableMapOf<Map<Symbol, UInt>, C>()
    for (entry in coefs) {
        val key = entry.key.cleanUp()
        val value = entry.value
        fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
    }
    return LabeledPolynomial<C>(
        fixedCoefs.filterValues { it != zero }
    )
 }
@Suppress("FunctionName", "NOTHING_TO_INLINE")
 internal inline fun <C, A: Ring<C>> LabeledPolynomialSpace<C, A>.LabeledPolynomial(pairs: Collection<Pair<Map<Symbol, UInt>, C>>, toCheckInput: Boolean = true) : LabeledPolynomial<C> = ring.LabeledPolynomial(pairs, toCheckInput)
@Suppress("FunctionName")
 internal fun <C, A: Ring<C>> A.LabeledPolynomial(pairs: Collection<Pair<Map<Symbol, UInt>, C>>, toCheckInput: Boolean = true) : LabeledPolynomial<C> {
    if (!toCheckInput) return LabeledPolynomial<C>(pairs.toMap())
    val fixedCoefs = mutableMapOf<Map<Symbol, UInt>, C>()
    for (entry in pairs) {
        val key = entry.first.cleanUp()
        val value = entry.second
        fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
    }
    return LabeledPolynomial<C>(
        fixedCoefs.filterValues { it != zero }
    )
 }
@Suppress("FunctionName", "NOTHING_TO_INLINE")
 internal inline fun <C, A: Ring<C>> LabeledPolynomialSpace<C, A>.LabeledPolynomial(vararg pairs: Pair<Map<Symbol, UInt>, C>, toCheckInput: Boolean = true) : LabeledPolynomial<C> = ring.LabeledPolynomial(pairs = pairs, toCheckInput = toCheckInput)
@Suppress("FunctionName")
 internal fun <C, A: Ring<C>> A.LabeledPolynomial(vararg pairs: Pair<Map<Symbol, UInt>, C>, toCheckInput: Boolean = true) : LabeledPolynomial<C> {
    if (!toCheckInput) return LabeledPolynomial<C>(pairs.toMap())
    val fixedCoefs = mutableMapOf<Map<Symbol, UInt>, C>()
    for (entry in pairs) {
        val key = entry.first.cleanUp()
        val value = entry.second
        fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
    }
    return LabeledPolynomial<C>(
        fixedCoefs.filterValues { it != zero }
    )
 }
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> A.LabeledPolynomial(coefs: Map<Map<Symbol, UInt>, C>) : LabeledPolynomial<C> = LabeledPolynomial(coefs, toCheckInput = true)
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> LabeledPolynomialSpace<C, A>.LabeledPolynomial(coefs: Map<Map<Symbol, UInt>, C>) : LabeledPolynomial<C> = LabeledPolynomial(coefs, toCheckInput = true)
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> A.LabeledPolynomial(pairs: Collection<Pair<Map<Symbol, UInt>, C>>) : LabeledPolynomial<C> = LabeledPolynomial(pairs, toCheckInput = true)
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> LabeledPolynomialSpace<C, A>.LabeledPolynomial(pairs: Collection<Pair<Map<Symbol, UInt>, C>>) : LabeledPolynomial<C> = LabeledPolynomial(pairs, toCheckInput = true)
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> A.LabeledPolynomial(vararg pairs: Pair<Map<Symbol, UInt>, C>) : LabeledPolynomial<C> = LabeledPolynomial(*pairs, toCheckInput = true)
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> LabeledPolynomialSpace<C, A>.LabeledPolynomial(vararg pairs: Pair<Map<Symbol, UInt>, C>) : LabeledPolynomial<C> = LabeledPolynomial(*pairs, toCheckInput = true)
 //context(A)
 //public fun <C, A: Ring<C>> Symbol.asLabeledPolynomial() : LabeledPolynomial<C> = LabeledPolynomial<C>(mapOf(mapOf(this to 1u) to one))
 //context(LabeledPolynomialSpace<C, A>)
 //public fun <C, A: Ring<C>> Symbol.asLabeledPolynomial() : LabeledPolynomial<C> = LabeledPolynomial<C>(mapOf(mapOf(this to 1u) to constantOne))
 public fun <C> C.asLabeledPolynomial() : LabeledPolynomial<C> = LabeledPolynomial<C>(mapOf(emptyMap<Symbol, UInt>() to this))
 /**
 * Space of polynomials.
--- a/kmath-functions/src/commonMain/kotlin/space/kscience/kmath/functions/NumberedPolynomial.kt
+++ b/kmath-functions/src/commonMain/kotlin/space/kscience/kmath/functions/NumberedPolynomial.kt
@ -53,56 +53,86 @@ internal constructor(
 */
 internal fun List<UInt>.cleanUp() = subList(0, indexOfLast { it != 0U } + 1)
-//context(NumberedPolynomialSpace<C, Ring<C>>)
+// Waiting for context receivers :( TODO: Replace with context receivers when they will be available
 //@Suppress("FunctionName")
 //internal fun <C> NumberedPolynomial(coefs: Map<List<UInt>, C>, toCheckInput: Boolean = false) : NumberedPolynomial<C> {
 //    if (!toCheckInput) return NumberedPolynomial(coefs)
 //
 //    val fixedCoefs = mutableMapOf<List<UInt>, C>()
 //
 //    for (entry in coefs) {
 //        val key = entry.key.cleanUp()
 //        val value = entry.value
 //        fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
 //    }
 //
 //    return NumberedPolynomial(
 //        fixedCoefs.filterValues { it.isNotZero() }
 //    )
 //}
 //
 //context(NumberedPolynomialSpace<C, Ring<C>>)
 //@Suppress("FunctionName")
 //internal fun <C> NumberedPolynomial(pairs: Collection<Pair<List<UInt>, C>>, toCheckInput: Boolean = false) : NumberedPolynomial<C> {
 //    if (!toCheckInput) return NumberedPolynomial(pairs.toMap())
 //
 //    val fixedCoefs = mutableMapOf<List<UInt>, C>()
 //
 //    for (entry in pairs) {
 //        val key = entry.first.cleanUp()
 //        val value = entry.second
 //        fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
 //    }
 //
 //    return NumberedPolynomial(
 //        fixedCoefs.filterValues { it.isNotZero() }
 //    )
 //}
 //
 //// TODO: Do not know how to make it without context receivers
 //context(NumberedPolynomialSpace<C, Ring<C>>)
 //@Suppress("FunctionName")
 //public fun <C> NumberedPolynomial(coefs: Map<List<UInt>, C>) : NumberedPolynomial<C> = NumberedPolynomial(coefs, toCheckInput = true)
 //
 //context(NumberedPolynomialSpace<C, Ring<C>>)
 //@Suppress("FunctionName")
 //public fun <C> NumberedPolynomial(pairs: Collection<Pair<List<UInt>, C>>) : NumberedPolynomial<C> = NumberedPolynomial(pairs, toCheckInput = true)
 //
 //context(NumberedPolynomialSpace<C, Ring<C>>)
 //@Suppress("FunctionName")
 //public fun <C> NumberedPolynomial(vararg pairs: Pair<List<UInt>, C>) : NumberedPolynomial<C> = NumberedPolynomial(pairs.toList(), toCheckInput = true)
-public fun <C> C.asNumberedPolynomial() : NumberedPolynomial<C> = NumberedPolynomial(mapOf(emptyList<UInt>() to this))
+@Suppress("FunctionName", "NOTHING_TO_INLINE")
 internal inline fun <C, A: Ring<C>> NumberedPolynomialSpace<C, A>.NumberedPolynomial(coefs: Map<List<UInt>, C>, toCheckInput: Boolean = true) : NumberedPolynomial<C> = ring.NumberedPolynomial(coefs, toCheckInput)
@Suppress("FunctionName")
 internal fun <C, A: Ring<C>> A.NumberedPolynomial(coefs: Map<List<UInt>, C>, toCheckInput: Boolean = true) : NumberedPolynomial<C> {
    if (!toCheckInput) return NumberedPolynomial<C>(coefs)
    val fixedCoefs = mutableMapOf<List<UInt>, C>()
    for (entry in coefs) {
        val key = entry.key.cleanUp()
        val value = entry.value
        fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
    }
    return NumberedPolynomial<C>(
        fixedCoefs.filterValues { it != zero }
    )
 }
@Suppress("FunctionName", "NOTHING_TO_INLINE")
 internal inline fun <C, A: Ring<C>> NumberedPolynomialSpace<C, A>.NumberedPolynomial(pairs: Collection<Pair<List<UInt>, C>>, toCheckInput: Boolean = true) : NumberedPolynomial<C> = ring.NumberedPolynomial(pairs, toCheckInput)
@Suppress("FunctionName")
 internal fun <C, A: Ring<C>> A.NumberedPolynomial(pairs: Collection<Pair<List<UInt>, C>>, toCheckInput: Boolean = true) : NumberedPolynomial<C> {
    if (!toCheckInput) return NumberedPolynomial<C>(pairs.toMap())
    val fixedCoefs = mutableMapOf<List<UInt>, C>()
    for (entry in pairs) {
        val key = entry.first.cleanUp()
        val value = entry.second
        fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
    }
    return NumberedPolynomial<C>(
        fixedCoefs.filterValues { it != zero }
    )
 }
@Suppress("FunctionName", "NOTHING_TO_INLINE")
 internal inline fun <C, A: Ring<C>> NumberedPolynomialSpace<C, A>.NumberedPolynomial(vararg pairs: Pair<List<UInt>, C>, toCheckInput: Boolean = true) : NumberedPolynomial<C> = ring.NumberedPolynomial(pairs = pairs, toCheckInput = toCheckInput)
@Suppress("FunctionName")
 internal fun <C, A: Ring<C>> A.NumberedPolynomial(vararg pairs: Pair<List<UInt>, C>, toCheckInput: Boolean = true) : NumberedPolynomial<C> {
    if (!toCheckInput) return NumberedPolynomial<C>(pairs.toMap())
    val fixedCoefs = mutableMapOf<List<UInt>, C>()
    for (entry in pairs) {
        val key = entry.first.cleanUp()
        val value = entry.second
        fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
    }
    return NumberedPolynomial<C>(
        fixedCoefs.filterValues { it != zero }
    )
 }
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> A.NumberedPolynomial(coefs: Map<List<UInt>, C>) : NumberedPolynomial<C> = NumberedPolynomial(coefs, toCheckInput = true)
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> NumberedPolynomialSpace<C, A>.NumberedPolynomial(coefs: Map<List<UInt>, C>) : NumberedPolynomial<C> = NumberedPolynomial(coefs, toCheckInput = true)
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> A.NumberedPolynomial(pairs: Collection<Pair<List<UInt>, C>>) : NumberedPolynomial<C> = NumberedPolynomial(pairs, toCheckInput = true)
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> NumberedPolynomialSpace<C, A>.NumberedPolynomial(pairs: Collection<Pair<List<UInt>, C>>) : NumberedPolynomial<C> = NumberedPolynomial(pairs, toCheckInput = true)
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> A.NumberedPolynomial(vararg pairs: Pair<List<UInt>, C>) : NumberedPolynomial<C> = NumberedPolynomial(*pairs, toCheckInput = true)
@Suppress("FunctionName")
 public fun <C, A: Ring<C>> NumberedPolynomialSpace<C, A>.NumberedPolynomial(vararg pairs: Pair<List<UInt>, C>) : NumberedPolynomial<C> = NumberedPolynomial(*pairs, toCheckInput = true)
 //context(A)
 //public fun <C, A: Ring<C>> Symbol.asNumberedPolynomial() : NumberedPolynomial<C> = NumberedPolynomial<C>(mapOf(mapOf(this to 1u) to one))
 //context(NumberedPolynomialSpace<C, A>)
 //public fun <C, A: Ring<C>> Symbol.asNumberedPolynomial() : NumberedPolynomial<C> = NumberedPolynomial<C>(mapOf(mapOf(this to 1u) to constantOne))
 public fun <C> C.asNumberedPolynomial() : NumberedPolynomial<C> = NumberedPolynomial<C>(mapOf(emptyList<UInt>() to this))
 /**
 * Space of polynomials.
@ -574,47 +604,4 @@ public open class NumberedPolynomialSpace<C, A : Ring<C>>(
            for ((degs, c) in this) if (c.isZero()) this.remove(degs)
        }
    }
    @Suppress("FunctionName")
    internal fun NumberedPolynomial(coefs: Map<List<UInt>, C>, toCheckInput: Boolean = false) : NumberedPolynomial<C> {
        if (!toCheckInput) return NumberedPolynomial<C>(coefs)
        val fixedCoefs = mutableMapOf<List<UInt>, C>()
        for (entry in coefs) {
            val key = entry.key.cleanUp()
            val value = entry.value
            fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
        }
        return NumberedPolynomial(
            fixedCoefs.filterValues { it.isNotZero() }
        )
    }
    @Suppress("FunctionName")
    internal fun NumberedPolynomial(pairs: Collection<Pair<List<UInt>, C>>, toCheckInput: Boolean = false) : NumberedPolynomial<C> {
        if (!toCheckInput) return NumberedPolynomial<C>(pairs.toMap())
        val fixedCoefs = mutableMapOf<List<UInt>, C>()
        for (entry in pairs) {
            val key = entry.first.cleanUp()
            val value = entry.second
            fixedCoefs[key] = if (key in fixedCoefs) fixedCoefs[key]!! + value else value
        }
        return NumberedPolynomial(
            fixedCoefs.filterValues { it.isNotZero() }
        )
    }
    @Suppress("FunctionName")
    public fun NumberedPolynomial(coefs: Map<List<UInt>, C>) : NumberedPolynomial<C> = NumberedPolynomial(coefs, toCheckInput = true)
    @Suppress("FunctionName")
    public fun NumberedPolynomial(pairs: Collection<Pair<List<UInt>, C>>) : NumberedPolynomial<C> = NumberedPolynomial(pairs, toCheckInput = true)
    @Suppress("FunctionName")
    public fun NumberedPolynomial(vararg pairs: Pair<List<UInt>, C>) : NumberedPolynomial<C> = NumberedPolynomial(pairs.toList(), toCheckInput = true)
 }