我使用Saxon处理器来执行验证。
包含所有函数定义的文件如下:
default-definition.txt:
declare variable $a external;
declare variable $b external;
declare variable $c external;
declare function iaf:sum(
$params as item()*
) as item()+ {
let $facts := if (empty($params)) then (0) else one-or-more($params)
let $values := for $i in $facts return (iaf:splitValueThreshold($i)[1])
let $thresholds := for $i in $facts return (iaf:splitValueThreshold($i)[2])
let $sumValues := sum($values)
let $sumThresholds := sum($thresholds)
let $output := iaf:joinValueThreshold($sumValues, $sumThresholds)
return ($output)
};
declare function iaf:numeric-equal(
$paramA as item(), $paramB as item()
) as xs:boolean {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $output := abs($itemA[1] - $itemB[1]) le ($itemA[2] + $itemB[2])
return ($output)
};
declare function iaf:numeric-less-than(
$paramA as item(), $paramB as item()
) as xs:boolean {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $output := ($itemA[1] - $itemB[1]) lt ($itemA[2] + $itemB[2])
return ($output)
};
declare function iaf:numeric-less-equal-than(
$paramA as item(), $paramB as item()
) as xs:boolean {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $output := ($itemA[1] - $itemB[1]) le ($itemA[2] + $itemB[2])
return ($output)
};
declare function iaf:numeric-greater-than(
$paramA as item(), $paramB as item()
) as xs:boolean {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $output := $itemA[1] gt ($itemB[1] - ($itemA[2] + $itemB[2]))
return ($output)
};
declare function iaf:numeric-greater-equal-than(
$paramA as item(), $paramB as item()
) as xs:boolean {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $output := $itemA[1] ge ($itemB[1] - ($itemA[2] + $itemB[2]))
return ($output)
};
declare function iaf:numeric-add(
$paramA as item(), $paramB as item()
) as item() {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $value := $itemA[1]+$itemB[1]
let $threshold := $itemA[2]+$itemB[2]
let $output := iaf:joinValueThreshold($value,$threshold)
return ($output)
};
declare function iaf:numeric-subtract(
$paramA as item(), $paramB as item()
) as item() {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $value := $itemA[1]-$itemB[1]
let $threshold := $itemA[2]+$itemB[2]
let $output := iaf:joinValueThreshold($value,$threshold)
return ($output)
};
declare function iaf:numeric-divide(
$paramA as item(), $paramB as item()
) as item() {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $A := $itemA[1]
let $B := $itemB[1]
let $deltaA := $itemA[2]
let $deltaB := $itemB[2]
let $AdivB := $A div $B
let $J0 := ($A + $deltaA) div ($B + $deltaB)
let $J1 := ($A + $deltaA) div ($B - $deltaB)
let $J2 := ($A - $deltaA) div ($B + $deltaB)
let $J3 := ($A - $deltaA) div ($B - $deltaB)
let $threshold := max((abs($AdivB - $J0), abs($AdivB - $J1), abs($AdivB - $J2), abs($AdivB - $J3)))
let $output := iaf:joinValueThreshold($AdivB, $threshold)
return ($output)
};
declare function iaf:numeric-multiply(
$paramA as item(), $paramB as item()
) as item() {
iaf:multiply-two-elements($paramA, $paramB)
};
declare function iaf:numeric-multiply(
$params as item()+
) as item() {
let $output := iaf:multiply-recursive($params, 1, 0)
return ($output)
};
declare function iaf:abs(
$input as item()
) as item() {
let $item := if (empty($input)) then 0 else $input
let $output := if ($item instance of element() and empty($item[2])) then
iaf:joinValueThreshold(abs($item), iaf-int:fact-threshold($item)) else (if (not($item instance of
element()) and empty($item[2]) and not(contains(string($item), ";"))) then
iaf:joinValueThreshold(abs($item), 0) else
iaf:joinValueThreshold(abs(xs:decimal(substring-before($item, ";"))),
xs:decimal(substring-after($item, ";"))))
return ($output)
};
declare function iaf:numeric-unary-minus(
$item as item()
) as item() {
let $output := if ($item instance of element() and empty($item[2])) then
iaf:joinValueThreshold(-($item), iaf-int:fact-threshold($item)) else (if (not($item instance of
element()) and empty($item[2]) and not(contains(string($item), ";"))) then
iaf:joinValueThreshold(-($item), 0) else
iaf:joinValueThreshold(-(xs:decimal(substring-before($item, ";"))),
xs:decimal(substring-after($item, ";"))))
return ($output)
};
declare function iaf:min(
$params as item()*
) as item() {
let $facts := if (empty($params)) then (0) else one-or-more($params)
let $values := for $i in $facts return (iaf:splitValueThreshold($i)[1])
let $thresholds := for $i in $facts return (iaf:splitValueThreshold($i)[2])
let $minValue := min($values)
let $indexMin := index-of($values, $minValue)[1]
let $minThreshold := $thresholds[$indexMin]
let $output := iaf:joinValueThreshold($minValue,$minThreshold)
return ($output)
};
declare function iaf:max(
$params as item()*
) as item() {
let $facts := if (empty($params)) then (0) else one-or-more($params)
let $values := for $i in $facts return (iaf:splitValueThreshold($i)[1])
let $thresholds := for $i in $facts return (iaf:splitValueThreshold($i)[2])
let $maxValue := max($values)
let $indexMax := index-of($values, $maxValue)[1]
let $maxThreshold := $thresholds[$indexMax]
let $output := iaf:joinValueThreshold($maxValue,$maxThreshold)
return ($output)
};
declare function iaf:splitValueThreshold(
$item as item()
) as item()+ {
let $valorUmbral := if ($item instance of element() and empty($item[2])) then ($item,
iaf-int:fact-threshold($item)) else (if (not($item instance of element()) and empty($item[2])
and not(contains(string($item), ";"))) then ($item, 0) else
(xs:decimal(substring-before($item, ";")), xs:decimal(substring-after($item, ";"))))
return ($valorUmbral)
};
declare function iaf:joinValueThreshold(
$value as item(), $threshold as item()
) as xs:string {
let $output := concat(string($value),";",string($threshold))
return ($output)
};
declare function iaf:precision(
$item as item()+
) as xs:decimal {
let $ouput := xfi:decimals($item)
return ($ouput)
};
declare function iaf:multiply-recursive(
$sequence as item()+, $count as item(), $subtotalParam as item()
) as item() {
let $facts := if (empty($sequence)) then (0) else
one-or-more($sequence)
let $numberOfParams := count($facts)
let $subtotal := if ($count eq 1) then $facts[1] else $subtotalParam
let $multiply := if($count lt $numberOfParams) then iaf:multiply-two-elements($subtotal,
$facts[$count + 1]) else $subtotal
let $output := if($count lt $numberOfParams) then iaf:multiply-recursive($sequence,
($count +1), $multiply) else $multiply
return ($output)
};
declare function iaf:multiply-two-elements(
$paramA as item(), $paramB as item()
) as item() {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $A := $itemA[1]
let $B := $itemB[1]
let $deltaA := $itemA[2]
let $deltaB := $itemB[2]
let $AxB := $A * $B
let $threshold := sum((abs($A * $deltaB), abs($B * $deltaA), $deltaA * $deltaB))
return (iaf:joinValueThreshold($AxB, $threshold))
};
declare function iaf:numeric-equal-threshold(
$paramA as item(), $paramB as item()
) as item() {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $output := ($itemA[2] + $itemB[2])
return ($output)
};
declare function iaf:numeric-less-than-threshold(
$paramA as item(), $paramB as item()
) as item() {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $output := ($itemA[2] + $itemB[2])
return ($output)
};
declare function iaf:numeric-less-equal-than-threshold(
$paramA as item(), $paramB as item()
) as item() {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $output := ($itemA[2] + $itemB[2])
return ($output)
};
declare function iaf:numeric-greater-than-threshold(
$paramA as item(), $paramB as item()
) as item() {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $output := ($itemA[2] + $itemB[2])
return ($output)
};
declare function iaf:numeric-greater-equal-than-threshold(
$paramA as item(), $paramB as item()
) as item() {
let $itemA := iaf:splitValueThreshold($paramA)
let $itemB := iaf:splitValueThreshold($paramB)
let $output := ($itemA[2] + $itemB[2])
return ($output)
};
declare function iaf:abs-sequence(
$params as item()*
) as item()+ {
let $facts := if (empty($params)) then (0) else one-or-more($params)
let $values := for $i in $facts return (iaf:abs($i))
return (($values))
};
declare function iaf:numeric-equal-test(
$paramA as item(), $paramB as item()
) as item()+ {
let $valueA := iaf:splitValueThreshold($paramA)[1]
let $valueB := iaf:splitValueThreshold($paramB)[1]
let $thA := iaf:splitValueThreshold($paramA)[2]
let $thB := iaf:splitValueThreshold($paramB)[2]
let $absol := abs($valueA - $valueB)
let $sumTh := $thA + $thB
return (($valueA, $valueB, $thA, $thB, $absol, $sumTh))
};
declare function iaf-int:exp10(
$power as xs:integer
) as xs:decimal {
if ($power eq 0) then 1 else if ($power gt 0) then 10 * iaf-int:exp10($power - 1) else 1 div iaf-int:exp10(-$power)
};
declare function iaf-int:fact-threshold(
$fact as item()
) as xs:decimal {
let $decimals := xfi:decimals($fact)
return (if (string($decimals) = 'INF') then 0 else iaf-int:exp10(-xs:integer($decimals)) div 2)
};
declare function xff:has-fallback-value(
$fact as xs:QName
) as xs:boolean{
let $result := if (string($a) = '') then fn:true() else fn:false()
return ($result)
};
declare function xfi:decimals($fact as item() ) as item()+ { let $deci := $fact/@decimals return ($deci)};
declare function xfi:fact-typed-dimension-value($fact as item() , $typedDim as xs:QName?) as xs:string {let $dimName := substring-before(substring-after($fact,concat("s2c_dim:",$typedDim,"__TDVALUE__")),";") return ($dimName)};
$a = +$b + $c
Junit 测试用例:
XdmValue xqueryResult = null;
XQueryCompiler xqueryCompiler = new Processor(false).newXQueryCompiler();
declareNamespace(xqueryCompiler);
XQueryExecutable queryExecutable = xqueryCompiler.compile(new File("default-definition.txt")); //I18NOK:LSM
XQueryEvaluator xqueryEvaluator = queryExecutable.load();
double aa=331640738.91;
double bb=393432239.2;
double cc=-61791500.29;
//previous strategy, which is now throwing an exception
// XPTY0004: Cannot compare xs:string to xs:double
xqueryEvaluator.setExternalVariable(new QName("a"), new XdmAtomicValue(String.format("%s;%s", aa,FactValue.getPrecision("-3"))));
xqueryEvaluator.setExternalVariable(new QName("b"), new XdmAtomicValue(bb));
xqueryEvaluator.setExternalVariable(new QName("c"), new XdmAtomicValue(cc));
xqueryEvaluator.toString();
xqueryResult = xqueryEvaluator.evaluate();
System.out.println(Boolean.valueOf(xqueryResult.itemAt(0).getStringValue()));
//exact match --Result: FAIL
xqueryEvaluator.setExternalVariable(new QName("a"), new XdmAtomicValue(aa));
xqueryEvaluator.setExternalVariable(new QName("b"), new XdmAtomicValue(bb));
xqueryEvaluator.setExternalVariable(new QName("c"), new XdmAtomicValue(cc));
xqueryEvaluator.toString();
xqueryResult = xqueryEvaluator.evaluate();
System.out.println(Boolean.valueOf(xqueryResult.itemAt(0).getStringValue()));
//matching after rounding off till the range of 1000 --Result: FAIL
double a = Math.round(Double.parseDouble("331640738.91") * Math.pow(10,-3)) / Math.pow(10,-3);
double b = Math.round(Double.parseDouble("393432239.2") * Math.pow(10,-3)) / Math.pow(10,-3);
double c = Math.round(Double.parseDouble("-61791500.29") * Math.pow(10,-3)) / Math.pow(10,-3);
xqueryEvaluator.setExternalVariable(new QName("a"), new XdmAtomicValue(a));
xqueryEvaluator.setExternalVariable(new QName("b"), new XdmAtomicValue(b));
xqueryEvaluator.setExternalVariable(new QName("c"), new XdmAtomicValue(c));
xqueryEvaluator.toString();
xqueryResult = xqueryEvaluator.evaluate();
System.out.println(Boolean.valueOf(xqueryResult.itemAt(0).getStringValue()));
理想情况下,“a”和“b+c”的值之间的差异是小数,并且应该通过。请告诉我是否有其他方法可以使用 Saxon 执行区间算术。
如果需要更多输入,请告诉我。
谢谢!
最佳答案
如果添加断言
assertEquals(aa, bb+cc);
声明这些变量后立即添加到您的 Java 代码中,您将看到它失败了:
Expected (aa) :3.3164073891E8
Actual(bb+cc) :3.3164073890999997E8
失败是因为将您写入的值(例如 331640738.91)转换为 double 值空间内可表示的最接近值时出现舍入错误。
Java 对 double 浮点运算使用的规则与 XQuery 所使用的规则完全相同,因此我不明白为什么当它在 Java 中失败时,您会期望它在 XQuery 中成功。
如果您想使用精确的十进制算术,则需要使用 xs:decimal 数据类型,而不是 xs:double。
关于java - 无法使用 Saxon 处理器应用区间算术,我们在Stack Overflow上找到一个类似的问题: https://stackoverflow.com/questions/51927447/