eanderton
12e974f892
* Added public Query interface * Added filter function callback support * Added "script" function callback support Queries are generated via Compile(), which then may be run via Execute() as many times as needed. Much like compiling a regex, this is done to elide the need to re-parse and build the funciton tree for each execution. The distinction between 'filter' and 'script' is borrowed from their syntactic equivalents in jsonpath. Right now, these accept no arguments in the query, and instead merely pass the current node to the callback. Filters return a bool and determine if the node is kept or culled out. 'Scripts' return a string or an in64, which is in turn used in an index or key filter (respectively) on the current node's data. A few callbacks are provided by default, with the ability to add additional callbacks before calling Execute() on a compiled query.
219 lines
4.0 KiB
Go
219 lines
4.0 KiB
Go
package jpath
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import (
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. "github.com/pelletier/go-toml"
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"fmt"
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"math"
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"testing"
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)
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// dump path tree to a string
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func pathString(root PathFn) string {
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result := fmt.Sprintf("%T:", root)
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switch fn := root.(type) {
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case *terminatingFn:
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result += "{}"
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case *matchKeyFn:
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result += fmt.Sprintf("{%s}", fn.Name)
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result += pathString(fn.next)
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case *matchIndexFn:
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result += fmt.Sprintf("{%d}", fn.Idx)
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result += pathString(fn.next)
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case *matchSliceFn:
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result += fmt.Sprintf("{%d:%d:%d}",
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fn.Start, fn.End, fn.Step)
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result += pathString(fn.next)
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case *matchAnyFn:
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result += "{}"
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result += pathString(fn.next)
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case *matchUnionFn:
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result += "{["
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for _, v := range fn.Union {
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result += pathString(v) + ", "
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}
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result += "]}"
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case *matchRecursiveFn:
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result += "{}"
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result += pathString(fn.next)
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case *matchFilterFn:
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result += fmt.Sprintf("{%s}", fn.Name)
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result += pathString(fn.next)
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case *matchScriptFn:
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result += fmt.Sprintf("{%s}", fn.Name)
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result += pathString(fn.next)
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}
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return result
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}
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func assertPathMatch(t *testing.T, path, ref *Query) bool {
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pathStr := pathString(path.root)
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refStr := pathString(ref.root)
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if pathStr != refStr {
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t.Errorf("paths do not match")
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t.Log("test:", pathStr)
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t.Log("ref: ", refStr)
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return false
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}
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return true
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}
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func assertPath(t *testing.T, query string, ref *Query) {
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_, flow := lex(query)
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path := parse(flow)
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assertPathMatch(t, path, ref)
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}
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func buildPath(parts... PathFn) *Query {
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query := newQuery()
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for _, v := range parts {
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query.appendPath(v)
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}
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return query
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}
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func TestPathRoot(t *testing.T) {
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assertPath(t,
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"$",
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buildPath(
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// empty
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))
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}
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func TestPathKey(t *testing.T) {
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assertPath(t,
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"$.foo",
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buildPath(
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newMatchKeyFn("foo"),
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))
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}
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func TestPathBracketKey(t *testing.T) {
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assertPath(t,
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"$[foo]",
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buildPath(
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newMatchKeyFn("foo"),
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))
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}
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func TestPathBracketStringKey(t *testing.T) {
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assertPath(t,
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"$['foo']",
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buildPath(
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newMatchKeyFn("foo"),
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))
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}
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func TestPathIndex(t *testing.T) {
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assertPath(t,
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"$[123]",
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buildPath(
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newMatchIndexFn(123),
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))
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}
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func TestPathSliceStart(t *testing.T) {
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assertPath(t,
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"$[123:]",
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buildPath(
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newMatchSliceFn(123, math.MaxInt64, 1),
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))
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}
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func TestPathSliceStartEnd(t *testing.T) {
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assertPath(t,
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"$[123:456]",
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buildPath(
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newMatchSliceFn(123, 456, 1),
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))
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}
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func TestPathSliceStartEndColon(t *testing.T) {
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assertPath(t,
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"$[123:456:]",
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buildPath(
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newMatchSliceFn(123, 456, 1),
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))
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}
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func TestPathSliceStartStep(t *testing.T) {
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assertPath(t,
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"$[123::7]",
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buildPath(
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newMatchSliceFn(123, math.MaxInt64, 7),
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))
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}
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func TestPathSliceEndStep(t *testing.T) {
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assertPath(t,
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"$[:456:7]",
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buildPath(
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newMatchSliceFn(0, 456, 7),
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))
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}
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func TestPathSliceStep(t *testing.T) {
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assertPath(t,
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"$[::7]",
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buildPath(
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newMatchSliceFn(0, math.MaxInt64, 7),
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))
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}
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func TestPathSliceAll(t *testing.T) {
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assertPath(t,
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"$[123:456:7]",
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buildPath(
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newMatchSliceFn(123, 456, 7),
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))
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}
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func TestPathAny(t *testing.T) {
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assertPath(t,
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"$.*",
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buildPath(
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newMatchAnyFn(),
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))
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}
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func TestPathUnion(t *testing.T) {
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assertPath(t,
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"$[foo, bar, baz]",
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buildPath(
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&matchUnionFn{ []PathFn {
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newMatchKeyFn("foo"),
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newMatchKeyFn("bar"),
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newMatchKeyFn("baz"),
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}},
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))
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}
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func TestPathRecurse(t *testing.T) {
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assertPath(t,
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"$..*",
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buildPath(
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newMatchRecursiveFn(),
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))
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}
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func TestPathFilterExpr(t *testing.T) {
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assertPath(t,
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"$[?('foo'),?(bar)]",
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buildPath(
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&matchUnionFn{ []PathFn {
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newMatchFilterFn("foo", Position{}),
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newMatchFilterFn("bar", Position{}),
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}},
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))
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}
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func TestPathScriptExpr(t *testing.T) {
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assertPath(t,
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"$[('foo'),(bar)]",
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buildPath(
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&matchUnionFn{ []PathFn {
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newMatchScriptFn("foo", Position{}),
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newMatchScriptFn("bar", Position{}),
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}},
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))
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}
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