// /// @file dictionary.hpp /// @brief Defines the dictionary interface and common functionality. // // Alee Forth: A portable and concise Forth implementation in modern C++. // Copyright (C) 2023 Clyne Sullivan // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with this program. If not, see . #ifndef ALEEFORTH_DICTIONARY_HPP #define ALEEFORTH_DICTIONARY_HPP #include "config.hpp" #include "types.hpp" #include "ctype.hpp" #include #include #include /** * @class Dictionary * @brief Provides an interface and essential funcitonality for a dictionary. * @details The core read and write functionality is left virtual so that * dictionaries can be stored in any medium. So, this class cannot be used * directly; the programmer must define a dictionary class that inherits this * one. * * Dictionary entry format (for a 16-bit implementation): * - One information cell: * - bits 0..4: Length of name * - bit 5: Set if word is immediate * - bits 6..15: Distance (backwards) to the next entry * - If bits 6..15 are all one-bits then "long" distance in following cell. * - "Length" bytes of name * - Zero or more bytes for address alignment * - Zero or more bytes of the definition's contents */ class Dictionary { public: /** Stores Numerical base to use for input/output. */ constexpr static Addr Base = 0; /** Stores the current `here` address. */ constexpr static Addr Here = sizeof(Cell); /** Stores the address of the most recently defined word. */ constexpr static Addr Latest = sizeof(Cell) * 2; /** Stores a boolean indication of compiling state. */ constexpr static Addr Compiling = sizeof(Cell) * 3; /** Stores the address of the last execution token determined by colon. */ constexpr static Addr CompToken = sizeof(Cell) * 4; /** Stores the address of the current interpreter input source. */ constexpr static Addr Source = sizeof(Cell) * 5; /** Stores the size in bytes of the interpreter input source. */ constexpr static Addr SourceLen = sizeof(Cell) * 6; /** Stores the dictionary's input buffer (a counted string). */ constexpr static Addr Input = sizeof(Cell) * 7; /** Stores the size of the dictionary's input buffer in bytes. */ constexpr static Addr InputCells = 80; /** Stores the dictionary's "beginning" i.e. where new definitions begin. */ constexpr static Addr Begin = sizeof(Cell) * 8 + InputCells; /** "Immediate" marker bit for a word's definition. */ constexpr static Cell Immediate = (1 << 5); constexpr static Cell DistancePos = 6; /** Maximum "short" distance between two definitions. */ constexpr static Cell MaxDistance = (1 << (sizeof(Cell) * 8 - DistancePos)) - 1; /** Returns the value of the cell at the given address. */ virtual Cell read(Addr) const noexcept = 0; /** Writes the given value to the cell at the given address. */ virtual void write(Addr, Cell) noexcept = 0; /** Returns the byte stored at the given address. */ virtual uint8_t readbyte(Addr) const noexcept = 0; /** Writes the given byte to the given address. */ virtual void writebyte(Addr, uint8_t) noexcept = 0; /** Returns the total capacity of the dictionary in bytes. */ virtual unsigned long int capacity() const noexcept = 0; /** * Initializes essential dictionary values. * Must be called before dictionary use. */ void initialize(); /** * Gets the address stored in `here`. */ LIBALEE_SECTION Addr here() const noexcept { return read(Here); } /** * Sets the address stored in `here`. */ LIBALEE_SECTION void here(Addr l) noexcept { write(Here, l); } /** * Gets the value of `latest`. */ LIBALEE_SECTION Addr latest() const noexcept { return read(Latest); } /** * Sets the value of `latest`. */ LIBALEE_SECTION void latest(Addr l) noexcept { write(Latest, l); } /** * Aligns the given address to the next Cell boundary if necessary. * @param addr The address to align. * @return The resulting aligned address. */ static Addr aligned(Addr addr); /** * Aligns `here` to the next Cell boundary if necessary. * @return The new aligned address stored in `here`. */ Addr alignhere() noexcept; /** * Allocates memory by returning and then increasing the current `here`. * @param count The number of bytes to increase `here` by. * @return The address stored in `here` before the increase. */ Addr allot(Cell count) noexcept; /** * Stores the given value to `here` then calls allot to "save" that cell. * @param value The value to store. * @see allot(Cell) */ void add(Cell value) noexcept; /** * Stores the beginning of a new word definition in the dictionary. * The word must eventually have its definition concluded via semicolon. * @param word The dictionary-stored name of the new word. */ void addDefinition(Word word) noexcept; void addNativeWord(const char *s, void (*func)(State&)); /** * Searches the dictionary for an entry for the given word. * @param word The dictionary-stored word to search for. * @return The beginning address of the word or zero if not found. */ Addr find(Word word) noexcept; /** * Produces the execution token for the given dictionary entry. * @param addr The beginning address of a defined word. * @return The execution token for the given word. * @see find(Word) */ Addr getexec(Addr addr) noexcept; /** * Reads the next word from the input buffer. * @return The next word or an empty word if one is not available. */ Word input() noexcept; /** * Returns true if the dictionary's input buffer has immediately available * data. */ bool hasInput() const noexcept; /** * Checks if the dictionary-stored word is equivalent to the given string. * @param word Dictionary-stored word to compare against. * @param str String to compare to. * @param size Size of the string to compare to. * @return True if the two words are equivalent. */ bool equal(Word word, const char *str, unsigned size) const noexcept; /** * Checks if two words stored in this dictionary are equivalent. * @param word1 First word to compare * @param word2 Second word to compare * @return True if the words are equivalent. */ bool equal(Word word1, Word word2) const noexcept; /** * Generic equality comparison using our own case-insensitive comparator. * Arguments and return value identical to std::equal. */ template LIBALEE_SECTION constexpr static bool equal(Iter1 b1, Iter1 e1, Iter2 b2) { return std::equal(b1, e1, b2, eqchars); } virtual ~Dictionary() {}; private: /** * Case-insensitive character comparison used for dictionary lookup. * @return True if the characters are equivalent. */ LIBALEE_SECTION constexpr static bool eqchars(char c1, char c2) { if (isalpha(static_cast(c1))) c1 |= 32; if (isalpha(static_cast(c2))) c2 |= 32; return c1 == c2; } }; #endif // ALEEFORTH_DICTIONARY_HPP