// Do not edit this file, it is autogenerated by CMake from the .md file
_HKI( "### Expression functions\n"
"\n"
"All function parameters support simple wildcards (`*` and `?`).\n"
"
\n"
"\n"
" A.enclosedByArea('')\n"
"True if all of `A` lies within the given zone's outline.\n"
"\n"
"NB: this is potentially a more expensive call than `intersectsArea()`. Use "
"`intersectsArea()`\n"
"where possible.\n"
"
\n"
"\n"
" A.existsOnLayer('')\n"
"True if `A` exists on the given layer. The layer name can be\n"
"either the name assigned in Board Setup > Board Editor Layers or\n"
"the canonical name (ie: `F.Cu`).\n"
"\n"
"NB: this returns true if `A` is on the given layer, independently\n"
"of whether or not the rule is being evaluated for that layer.\n"
"For the latter use a `(layer \"layer_name\")` clause in the rule.\n"
"
\n"
"\n"
" A.fromTo('x', 'y')\n"
"True if the object exists on the copper path between the given \n"
"pads. `x` and `y` are the full names of pads in the design, such as \n"
"`R1-Pad1`.\n"
"
\n"
"\n"
" A.getField('')\n"
"The value of the given field. Only footprints have fields, so a field is only returned if\n"
"`A` is a footprint.\n"
"
\n"
"\n"
" A.hasComponentClass('')\n"
"True if the set of component classes assigned to `A` contains the named \n"
"component class.\n"
"
\n"
"\n"
" A.hasNetclass('')\n"
"True if `A` has had the given netclass assigned to it, either by an explicit netclass "
"label\n"
"or through a pattern match assignment.\n"
"
\n"
"\n"
" A.inDiffPair('')\n"
"True if `A` has a net that is part of the specified differential pair.\n"
"`` is the base name of the differential pair. For example, `inDiffPair('/CLK')`\n"
"matches items in the `/CLK_P` and `/CLK_N` nets.\n"
"
\n"
"\n"
" A.intersectsArea('')\n"
"True if any part of `A` lies within the given zone's outline.\n"
"
\n"
"\n"
" A.intersectsCourtyard('')\n"
"True if any part of `A` lies within the given footprint's principal courtyard.\n"
"
\n"
"\n"
" A.intersectsFrontCourtyard('')\n"
"True if any part of `A` lies within the given footprint's front courtyard.\n"
"
\n"
"\n"
" A.intersectsBackCourtyard('')\n"
"True if any part of `A` lies within the given footprint's back courtyard.\n"
"
\n"
"\n"
"The `footprint_identifier` listed above can be one of the following:\n"
"\n"
"1. A reference designator, possibly containing wildcards `*` and `?`\n"
"2. A footprint library identifier such as `LibName:FootprintName`. In this case,\n"
" the library identifier must contain the `:` character to separate the library\n"
" name from the footprint name, and either name may contain wildcards.\n"
"3. A component class, in the form `${Class:ClassName}`. The keyword `Class` is not\n"
" case-sensitive, but component class names are case-sensitive.\n"
"\n"
"
\n"
"\n"
" A.isBlindBuriedVia()\n"
"True if `A` is a blind/buried via.\n"
"
\n"
"\n"
" AB.isCoupledDiffPair()\n"
"True if `A` and `B` are members of the same diff pair.\n"
"
\n"
"\n"
" A.isMicroVia()\n"
"True if `A` is a microvia.\n"
"
\n"
"\n"
" A.isPlated()\n"
"True if `A` has a hole which is plated.\n"
"
\n"
"\n"
" A.memberOfGroup('')\n"
"True if `A` is a member of the given group. The name can contain wildcards.\n"
"Includes nested membership.\n"
"
\n"
"\n"
" A.memberOfFootprint('')\n"
"True if `A` is a member of a given footprint (for example, a pad or graphic shape defined\n"
"inside that footprint). The various ways of specifying `footprint_identifier` are "
"described above.\n"
"
\n"
"\n"
" A.memberOfSheet('')\n"
"True if `A` is a member of the given schematic sheet. The sheet path can contain "
"wildcards.\n"
"
\n"
"\n"
" A.memberOfSheetOrChildren('')\n"
"True if `A` is a member of the given schematic sheet, or any of its child hierarchical "
"sheets. The sheet path can \n"
"contain wildcards.\n"
"
\n"
"\n"
"" );