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/**
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* Forth runtime internals
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*
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* Created on 2021/11/13.
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*/
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#ifndef FORTH_FH_RUNTIME_H
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#define FORTH_FH_RUNTIME_H
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#include <stdint.h>
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#include <stddef.h>
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#include <stdint.h>
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#include <stdbool.h>
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#include "fh_config.h"
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struct fh_word_s;
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struct fh_instruction_s;
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struct fh_thread_s;
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/** Word handler typedef */
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typedef enum fh_error (*word_exec_t)(struct fh_thread_s *fh, const struct fh_word_s *w);
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/** Bytecode instruction type marker */
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enum fb_instruction_kind {
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/* Data = word pointer (dict index) */
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FH_INSTR_WORD,
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/* Data = numeric value to push onto the data stack */
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FH_INSTR_NUMBER,
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/** End of a user defined word, pop address and jump back */
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FH_INSTR_ENDWORD,
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/** This is the `s"` instruction, the length (u32) and string data immediately follow */
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FH_INSTR_ALLOCSTR,
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/** This is the `."` instruction, same format as above. */
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FH_INSTR_TYPESTR,
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/* Unconditional jump */
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FH_INSTR_JUMP,
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/* Jump if zero */
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FH_INSTR_JUMPZERO,
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/* Postponed word */
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FH_INSTR_POSTPONED_WORD,
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};
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/** One instruction in bytecode */
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struct fh_instruction_s {
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/** What is the meaning of data? */
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enum fb_instruction_kind kind;
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/** Data word */
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uint32_t data;
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};
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static inline void instr_init(struct fh_instruction_s *instr, enum fb_instruction_kind kind, uint32_t data)
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{
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instr->kind = kind;
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instr->data = data;
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}
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#define INSTR_SIZE (sizeof(struct fh_instruction_s))
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_Static_assert(sizeof(struct fh_instruction_s) % 4 == 0, "Instruction struct is aligned");
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/** Forth runtime major state */
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enum fh_state {
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/** Interactive interpret mode */
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FH_STATE_INTERPRET = 0,
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/** Compiling */
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FH_STATE_COMPILE,
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/** Quit from RUN to interpret */
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FH_STATE_QUIT,
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/** Shutting down the runtime */
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FH_STATE_SHUTDOWN,
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FH_STATE_MAX,
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};
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/** Forth runtime minor state */
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enum fh_substate {
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FH_SUBSTATE_NONE = 0,
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FH_SUBSTATE_COLON_NAME,
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FH_SUBSTATE_S_QUOTE,
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FH_SUBSTATE_DOT_QUOTE,
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FH_SUBSTATE_PAREN_COMMENT,
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FH_SUBSTATE_LINE_COMMENT,
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FH_SUBSTATE_EXIT,
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FH_SUBSTATE_SEE_NAME,
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FH_SUBSTATE_POSTPONE_NAME,
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FH_SUBSTATE_MAX,
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};
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/** Word struct as they are stored in the dictionary */
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struct fh_word_s {
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uint32_t index;
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/** Word name */
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char name[MAX_NAME_LEN];
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/**
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* Handler function.
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* Builtin functions use pre-defined native handlers.
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* User words use a shared handler that executes compiled
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* bytecode at 'start' address of the compile-memory area.
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*/
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word_exec_t handler;
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/** Indicates that this is a built-in instruction and not a word call */
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bool builtin;
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/** Indicates that this instruction should always be treated as interpreted,
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* in practice this is only used for `;` */
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bool immediate;
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/** Start address in case of user words, or param for builtins */
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union {
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uint32_t start;
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uint32_t param;
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};
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};
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/**
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* Forth runtime instance - state variables and memory areas.
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*
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* Some memory areas, such as the dict or heap, could be moved
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* to a shared pointer if multi-threading and synchronization is added.
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*/
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struct fh_thread_s {
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/** Control stack */
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uint32_t control_stack[CONTROL_STACK_DEPTH];
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size_t control_stack_top;
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size_t control_stack_hwm;
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/** Data stack */
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uint32_t data_stack[DATA_STACK_DEPTH];
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size_t data_stack_top;
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size_t data_stack_hwm;
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/** Return stack */
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uint32_t return_stack[RETURN_STACK_DEPTH];
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size_t return_stack_top;
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size_t return_stack_hwm;
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/** Data heap */
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uint8_t heap[HEAP_SIZE];
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size_t heap_top; // aka "HERE"
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/** Compile buffer, used for both word data and literals */
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uint8_t compile[COMPILED_BUFFER_SIZE];
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size_t compile_top;
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/** Pointer into the compile buffer for execution */
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uint32_t execptr;
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/** Word dict */
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struct fh_word_s dict[DICT_SIZE];
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uint32_t dict_top;
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/** Forth state */
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enum fh_state state;
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/** Forth sub-state */
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enum fh_substate substate;
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/** The numeric base register */
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uint32_t base;
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};
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enum fh_error fh_add_word(const struct fh_word_s *w, struct fh_thread_s *fh);
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void fh_setstate(struct fh_thread_s *fh, enum fh_state state, enum fh_substate substate);
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void fh_setsubstate(struct fh_thread_s *fh, enum fh_substate substate);
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enum fh_error w_user_word(struct fh_thread_s *fh, const struct fh_word_s *w);
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/* if the return address is this, we should drop back to interactive mode */
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// SFR and magic addresses are "negative"
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#define MAGICADDR_INTERACTIVE 0xFFFFFFFFULL
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#define MAGICADDR_BASE 0xFFFFBA5EULL
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#define MAGICADDR_HERE 0xFFFF4E7EULL
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#define MAGICADDR_UNRESOLVED 0xFFFFFBADULL
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/** Get a value rounded up to multiple of word size */
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#define WORDALIGNED(var) (((var) + 3) & ~3)
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_Static_assert(WORDALIGNED(0) == 0, "word align");
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_Static_assert(WORDALIGNED(1) == 4, "word align");
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_Static_assert(WORDALIGNED(2) == 4, "word align");
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_Static_assert(WORDALIGNED(3) == 4, "word align");
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_Static_assert(WORDALIGNED(4) == 4, "word align");
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_Static_assert(WORDALIGNED(5) == 8, "word align");
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_Static_assert(WORDALIGNED(1023) == 1024, "word align");
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_Static_assert(WORDALIGNED(1024) == 1024, "word align");
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#define TRY(x) \
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do { \
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if (FH_OK != (rv = (x))) return rv; \
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} while (0)
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enum fh_error fh_handle_ascii_word(
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struct fh_thread_s *fh,
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const char *name,
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size_t wordlen
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);
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enum fh_error fh_handle_word(struct fh_thread_s *fh, const struct fh_word_s *w);
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#endif //FORTH_FH_RUNTIME_H
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