// Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file // for details. All rights reserved. Use of this source code is governed by a // BSD-style license that can be found in the LICENSE file. #include "vm/regexp_ast.h" #include "platform/utils.h" #include "vm/os.h" namespace dart { #define MAKE_ACCEPT(Name) \ void* RegExp##Name::Accept(RegExpVisitor* visitor, void* data) { \ return visitor->Visit##Name(this, data); \ } FOR_EACH_REG_EXP_TREE_TYPE(MAKE_ACCEPT) #undef MAKE_ACCEPT #define MAKE_TYPE_CASE(Name) \ RegExp##Name* RegExpTree::As##Name() { \ return nullptr; \ } \ bool RegExpTree::Is##Name() const { \ return false; \ } FOR_EACH_REG_EXP_TREE_TYPE(MAKE_TYPE_CASE) #undef MAKE_TYPE_CASE #define MAKE_TYPE_CASE(Name) \ RegExp##Name* RegExp##Name::As##Name() { return this; } \ bool RegExp##Name::Is##Name() const { return true; } FOR_EACH_REG_EXP_TREE_TYPE(MAKE_TYPE_CASE) #undef MAKE_TYPE_CASE static Interval ListCaptureRegisters(ZoneGrowableArray* children) { Interval result = Interval::Empty(); for (intptr_t i = 0; i < children->length(); i++) result = result.Union(children->At(i)->CaptureRegisters()); return result; } Interval RegExpAlternative::CaptureRegisters() const { return ListCaptureRegisters(nodes()); } Interval RegExpDisjunction::CaptureRegisters() const { return ListCaptureRegisters(alternatives()); } Interval RegExpLookaround::CaptureRegisters() const { return body()->CaptureRegisters(); } Interval RegExpCapture::CaptureRegisters() const { Interval self(StartRegister(index()), EndRegister(index())); return self.Union(body()->CaptureRegisters()); } Interval RegExpQuantifier::CaptureRegisters() const { return body()->CaptureRegisters(); } bool RegExpAssertion::IsAnchoredAtStart() const { return assertion_type() == RegExpAssertion::START_OF_INPUT; } bool RegExpAssertion::IsAnchoredAtEnd() const { return assertion_type() == RegExpAssertion::END_OF_INPUT; } bool RegExpAlternative::IsAnchoredAtStart() const { ZoneGrowableArray* nodes = this->nodes(); for (intptr_t i = 0; i < nodes->length(); i++) { RegExpTree* node = nodes->At(i); if (node->IsAnchoredAtStart()) { return true; } if (node->max_match() > 0) { return false; } } return false; } bool RegExpAlternative::IsAnchoredAtEnd() const { ZoneGrowableArray* nodes = this->nodes(); for (intptr_t i = nodes->length() - 1; i >= 0; i--) { RegExpTree* node = nodes->At(i); if (node->IsAnchoredAtEnd()) { return true; } if (node->max_match() > 0) { return false; } } return false; } bool RegExpDisjunction::IsAnchoredAtStart() const { ZoneGrowableArray* alternatives = this->alternatives(); for (intptr_t i = 0; i < alternatives->length(); i++) { if (!alternatives->At(i)->IsAnchoredAtStart()) return false; } return true; } bool RegExpDisjunction::IsAnchoredAtEnd() const { ZoneGrowableArray* alternatives = this->alternatives(); for (intptr_t i = 0; i < alternatives->length(); i++) { if (!alternatives->At(i)->IsAnchoredAtEnd()) return false; } return true; } bool RegExpLookaround::IsAnchoredAtStart() const { return is_positive() && type() == LOOKAHEAD && body()->IsAnchoredAtStart(); } bool RegExpCapture::IsAnchoredAtStart() const { return body()->IsAnchoredAtStart(); } bool RegExpCapture::IsAnchoredAtEnd() const { return body()->IsAnchoredAtEnd(); } // Convert regular expression trees to a simple sexp representation. // This representation should be different from the input grammar // in as many cases as possible, to make it more difficult for incorrect // parses to look as correct ones which is likely if the input and // output formats are alike. class RegExpUnparser : public RegExpVisitor { public: void VisitCharacterRange(CharacterRange that); #define MAKE_CASE(Name) virtual void* Visit##Name(RegExp##Name*, void* data); FOR_EACH_REG_EXP_TREE_TYPE(MAKE_CASE) #undef MAKE_CASE }; void* RegExpUnparser::VisitDisjunction(RegExpDisjunction* that, void* data) { OS::PrintErr("(|"); for (intptr_t i = 0; i < that->alternatives()->length(); i++) { OS::PrintErr(" "); (*that->alternatives())[i]->Accept(this, data); } OS::PrintErr(")"); return nullptr; } void* RegExpUnparser::VisitAlternative(RegExpAlternative* that, void* data) { OS::PrintErr("(:"); for (intptr_t i = 0; i < that->nodes()->length(); i++) { OS::PrintErr(" "); (*that->nodes())[i]->Accept(this, data); } OS::PrintErr(")"); return nullptr; } void RegExpUnparser::VisitCharacterRange(CharacterRange that) { PrintUtf16(that.from()); if (!that.IsSingleton()) { OS::PrintErr("-"); PrintUtf16(that.to()); } } void* RegExpUnparser::VisitCharacterClass(RegExpCharacterClass* that, void* data) { if (that->is_negated()) OS::PrintErr("^"); OS::PrintErr("["); for (intptr_t i = 0; i < that->ranges()->length(); i++) { if (i > 0) OS::PrintErr(" "); VisitCharacterRange((*that->ranges())[i]); } OS::PrintErr("]"); return nullptr; } void* RegExpUnparser::VisitAssertion(RegExpAssertion* that, void* data) { switch (that->assertion_type()) { case RegExpAssertion::START_OF_INPUT: OS::PrintErr("@^i"); break; case RegExpAssertion::END_OF_INPUT: OS::PrintErr("@$i"); break; case RegExpAssertion::START_OF_LINE: OS::PrintErr("@^l"); break; case RegExpAssertion::END_OF_LINE: OS::PrintErr("@$l"); break; case RegExpAssertion::BOUNDARY: OS::PrintErr("@b"); break; case RegExpAssertion::NON_BOUNDARY: OS::PrintErr("@B"); break; } return nullptr; } void* RegExpUnparser::VisitAtom(RegExpAtom* that, void* data) { OS::PrintErr("'"); ZoneGrowableArray* chardata = that->data(); for (intptr_t i = 0; i < chardata->length(); i++) { PrintUtf16(chardata->At(i)); } OS::PrintErr("'"); return nullptr; } void* RegExpUnparser::VisitText(RegExpText* that, void* data) { if (that->elements()->length() == 1) { (*that->elements())[0].tree()->Accept(this, data); } else { OS::PrintErr("(!"); for (intptr_t i = 0; i < that->elements()->length(); i++) { OS::PrintErr(" "); (*that->elements())[i].tree()->Accept(this, data); } OS::PrintErr(")"); } return nullptr; } void* RegExpUnparser::VisitQuantifier(RegExpQuantifier* that, void* data) { OS::PrintErr("(# %" Pd " ", that->min()); if (that->max() == RegExpTree::kInfinity) { OS::PrintErr("- "); } else { OS::PrintErr("%" Pd " ", that->max()); } OS::PrintErr(that->is_greedy() ? "g " : that->is_possessive() ? "p " : "n "); that->body()->Accept(this, data); OS::PrintErr(")"); return nullptr; } void* RegExpUnparser::VisitCapture(RegExpCapture* that, void* data) { OS::PrintErr("(^ "); that->body()->Accept(this, data); OS::PrintErr(")"); return nullptr; } void* RegExpUnparser::VisitLookaround(RegExpLookaround* that, void* data) { OS::PrintErr("("); OS::PrintErr("(%s %s", (that->type() == RegExpLookaround::LOOKAHEAD ? "->" : "<-"), (that->is_positive() ? "+ " : "- ")); that->body()->Accept(this, data); OS::PrintErr(")"); return nullptr; } void* RegExpUnparser::VisitBackReference(RegExpBackReference* that, void*) { OS::PrintErr("(<- %" Pd ")", that->index()); return nullptr; } void* RegExpUnparser::VisitEmpty(RegExpEmpty*, void*) { OS::PrintErr("%%"); return nullptr; } void RegExpTree::Print() { RegExpUnparser unparser; Accept(&unparser, nullptr); } RegExpDisjunction::RegExpDisjunction( ZoneGrowableArray* alternatives) : alternatives_(alternatives) { ASSERT(alternatives->length() > 1); RegExpTree* first_alternative = alternatives->At(0); min_match_ = first_alternative->min_match(); max_match_ = first_alternative->max_match(); for (intptr_t i = 1; i < alternatives->length(); i++) { RegExpTree* alternative = alternatives->At(i); min_match_ = Utils::Minimum(min_match_, alternative->min_match()); max_match_ = Utils::Maximum(max_match_, alternative->max_match()); } } static intptr_t IncreaseBy(intptr_t previous, intptr_t increase) { if (RegExpTree::kInfinity - previous < increase) { return RegExpTree::kInfinity; } else { return previous + increase; } } RegExpAlternative::RegExpAlternative(ZoneGrowableArray* nodes) : nodes_(nodes) { ASSERT(nodes->length() > 1); min_match_ = 0; max_match_ = 0; for (intptr_t i = 0; i < nodes->length(); i++) { RegExpTree* node = nodes->At(i); intptr_t node_min_match = node->min_match(); min_match_ = IncreaseBy(min_match_, node_min_match); intptr_t node_max_match = node->max_match(); max_match_ = IncreaseBy(max_match_, node_max_match); } } } // namespace dart