// // Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo // // The contents of this file are covered under the licence agreement in the // file "LICENCE" distributed with Cforall. // // Cost.h -- // // Author : Peter Buhr and Aaron Moss // Created On : Sun May 17 09:39:50 2015 // Last Modified By : Peter A. Buhr // Last Modified On : Fri Jun 21 11:39:13 2019 // Update Count : 63 // #pragma once #include #include #include namespace ResolvExpr { // To maximize performance and space, the 7 resolution costs are packed into a single 64-bit word. However, the // specialization cost is a negative value so a correction is needed is a few places. class Cost { union { struct { #if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ // Little-endian => first value is low priority and last is high priority. unsigned char padding; ///< unused unsigned char referenceCost; ///< reference conversions unsigned char specCost; ///< Polymorphic type specializations (type assertions), negative cost unsigned char varCost; ///< Count of polymorphic type variables unsigned char signCost; ///< Count of safe sign conversions unsigned char safeCost; ///< Safe (widening) conversions unsigned char polyCost; ///< Count of parameters and return values bound to some poly type unsigned char unsafeCost; ///< Unsafe (narrowing) conversions #else #error Cost BIG_ENDIAN unsupported #endif } v; uint64_t all; }; static const unsigned char correctb = 0xff; // byte correction for negative spec cost static const uint64_t correctw = 0x00'00'00'00'00'ff'00'00; //' word correction for negative spec cost public: // Compiler adjusts constants for correct endian. enum : uint64_t { zero = 0x00'00'00'00'00'ff'00'00, infinity = 0xff'ff'ff'ff'ff'00'ff'ff, unsafe = 0x01'00'00'00'00'ff'00'00, poly = 0x00'01'00'00'00'ff'00'00, safe = 0x00'00'01'00'00'ff'00'00, sign = 0x00'00'00'01'00'ff'00'00, var = 0x00'00'00'00'01'ff'00'00, spec = 0x00'00'00'00'00'fe'00'00, reference = 0x00'00'00'00'00'ff'01'00, }; //' Cost( uint64_t all ) { Cost::all = all; } Cost( int unsafeCost, int polyCost, int safeCost, int signCost, int varCost, int specCost, int referenceCost ) { // Assume little-endian => first value is low priority and last is high priority. v = { #if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ (unsigned char)0, // padding (unsigned char)referenceCost, // low priority (unsigned char)(specCost + correctb), // correct for signedness (unsigned char)varCost, (unsigned char)signCost, (unsigned char)safeCost, (unsigned char)polyCost, (unsigned char)unsafeCost, // high priority #else #error Cost BIG_ENDIAN unsupported #endif }; } int get_unsafeCost() const { return v.unsafeCost; } int get_polyCost() const { return v.polyCost; } int get_safeCost() const { return v.safeCost; } int get_signCost() const { return v.signCost; } int get_varCost() const { return v.varCost; } int get_specCost() const { return -(correctb - v.specCost); } int get_referenceCost() const { return v.referenceCost; } friend bool operator==( const Cost, const Cost ); friend bool operator!=( const Cost lhs, const Cost rhs ); // returns negative for *this < rhs, 0 for *this == rhs, positive for *this > rhs int compare( const Cost rhs ) const { if ( all == infinity ) return 1; if ( rhs.all == infinity ) return -1; return all > rhs.all ? 1 : all == rhs.all ? 0 : -1; } friend bool operator<( const Cost lhs, const Cost rhs ); friend Cost operator+( const Cost lhs, const Cost rhs ); Cost operator+=( const Cost rhs ) { if ( all == infinity ) return *this; if ( rhs.all == infinity ) { all = infinity; return *this; } all += rhs.all - correctw; // correct for negative spec cost return *this; } Cost incUnsafe( int inc = 1 ) { if ( all != infinity ) { assert( v.unsafeCost + inc <= UCHAR_MAX ); v.unsafeCost += inc; } return *this; } Cost incPoly( int inc = 1 ) { if ( all != infinity ) { assert( v.polyCost + inc <= UCHAR_MAX ); v.polyCost += inc; } return *this; } Cost incSafe( int inc = 1 ) { if ( all != infinity ) { assert( v.safeCost + inc <= UCHAR_MAX ); v.safeCost += inc; } return *this; } Cost incSign( int inc = 1 ) { if ( all != infinity ) { assert( v.signCost + inc <= UCHAR_MAX ); v.signCost += inc; } return *this; } Cost incVar( int inc = 1 ) { if ( all != infinity ) { assert( v.varCost + inc <= UCHAR_MAX ); v.varCost += inc; } return *this; } Cost decSpec( int dec = 1 ) { if ( all != infinity ) { assert( v.specCost - dec >= 0 ); v.specCost -= dec; } return *this; } Cost incReference( int inc = 1 ) { if ( all != infinity ) { assert( v.referenceCost + inc <= UCHAR_MAX ); v.referenceCost += inc; } return *this; } friend std::ostream & operator<<( std::ostream & os, const Cost cost ); }; inline bool operator==( const Cost lhs, const Cost rhs ) { return lhs.all == rhs.all; } inline bool operator!=( const Cost lhs, const Cost rhs ) { return !( lhs.all == rhs.all ); } inline bool operator<( const Cost lhs, const Cost rhs ) { if ( lhs.all == Cost::infinity ) return false; if ( rhs.all == Cost::infinity ) return true; return lhs.all < rhs.all; } inline Cost operator+( const Cost lhs, const Cost rhs ) { if ( lhs.all == Cost::infinity || rhs.all == Cost::infinity ) return Cost{ Cost::infinity }; return Cost{ lhs.all + rhs.all - Cost::correctw }; // correct for negative spec cost } inline std::ostream & operator<<( std::ostream & os, const Cost cost ) { return os << "( " << cost.get_unsafeCost() << ", " << cost.get_polyCost() << ", " << cost.get_safeCost() << ", " << cost.get_signCost() << ", " << cost.get_varCost() << ", " << cost.get_specCost() << ", " << cost.get_referenceCost() << " )"; } } // namespace ResolvExpr // Local Variables: // // tab-width: 4 // // mode: c++ // // compile-command: "make install" // // End: //