src/lisp/lisp.h - bluejay - Git - code.swisschili.sh

 #pragma once

 #include "error.h"
 #include "istream.h"
 #include <stdbool.h>
 #include <stdio.h>
 #include <stdarg.h>

 #define INT_MASK 0b11
 #define INT_TAG 0b00

 #define CHAR_MASK 0xff
 #define CHAR_TAG 0b00001111

 #define BOOL_MASK 0b1111111
 #define BOOL_TAG 0b0011111

 #define HEAP_MASK 0b111

 #define CONS_TAG 0b001
 #define CLASS_TAG 0b010
 #define STRING_TAG 0b011
 #define SYMBOL_TAG 0b101
 #define CLOSURE_TAG 0b110

 struct cons;

 /// Represents a Lisp value
 typedef unsigned int value_t;

 struct cons
 {
 	value_t car, cdr;

 	/// Line of the input file from where this was parsed, 0 if it was created
 	/// in Lisp.
 	int line;

 	/// Description of where the cons was parsed from, or NULL if generated in
 	/// code.
 	char *name;
 };

 /**
  * Represents how many arguments a function takes.
  */
 struct args
 {
 	/// The minimum valid number of arguments
 	int num_required;

 	/// The number of optional values
 	int num_optional;

 	/// Does this function accept variadic arguments? If `true`, any arguments
 	/// after the required and optional arguments will be `cons`-ed to a list
 	/// and passed as a final argument.
 	bool variadic;

 	/// The default values for the optional arguments, as expressions. These
 	/// should be evaluated at the call site. They are known not to reference
 	/// anything that could clash with scope at the call site.
 	struct optional_argument
 	{
 		/// The default value of this argument
 		value_t value;

 		/// The name of this argument as a symbol
 		value_t name;
 	} optional_arguments[];
 };

 struct closure
 {
 	/// How many arguments does this closure take
 	struct args *args;
 	/// How many free variables does it capture (i.e. length of `data`)
 	int num_captured;
 	/// The function pointer itself
 	void *function;

 	/// This will be passed in edi.
 	value_t data[];
 };

 struct class
 {
 	// A symbol representing the name of the class this is an instance
 	// of.
 	value_t type;

 	int num_members;
 	// C data
 	void *cdata;
 	value_t members[];
 };

 /// Default pool (no pool)
 #define NO_POOL 0

 /**
  * The max used pool number, don't touch this.
  */
 extern unsigned char max_pool;

 /**
  * Current allocation pool, default 0 (no pool)
  */
 extern unsigned char current_pool;

 // It is integral that this be 16 bytes long so that whatever follows it is
 // still aligned to 4 bits.
 struct alloc
 {
 	/**
 	 * One of the type tags, eg CONS_TAG, etc
 	 */
 	unsigned int type_tag;     //   4
 	struct alloc *prev, *next; // + 8
 	/**
 	 * Zero if this is not part of a release pool, pool number otherwise.
 	 */
 	unsigned char pool;       // + 1
 	/**
 	 * Reserved for the GC.
 	 */
 	unsigned int mark : 24;   // + 3 = 16

 	// Whatever else
 };

 extern struct alloc *first_a, *last_a;

 struct cons_alloc
 {
 	struct alloc alloc;
 	struct cons cons;
 };

 struct closure_alloc
 {
 	struct alloc alloc;
 	struct closure closure;
 };

 struct class_alloc
 {
 	struct alloc alloc;
 	struct class class;
 };

 /**
  * Create a new allocation pool.
  */
 unsigned char make_pool();

 /**
  * Set the allocation pull
  * @returns the old pool, you should reset this later with pop_pool.
  */
 unsigned char push_pool(unsigned char pool);

 /**
  * Set the allocation pool and throw away the old value.
  */
 void pop_pool(unsigned char pool);

 void add_to_pool(value_t form);

 void del_alloc(struct alloc *alloc);

 /**
  * @returns true if pool is still alive (in scope).
  */
 bool pool_alive(unsigned char pool);

 bool startswith(struct istream *s, char *pattern);

 struct error readsym(struct istream *is, value_t *val) WARN_UNUSED;
 struct error readstr(struct istream *is, value_t *val) WARN_UNUSED;
 struct error readlist(struct istream *is, value_t *val) WARN_UNUSED;
 struct error readint(struct istream *is, value_t *val) WARN_UNUSED;

 /**
  * Read a quoted form, including `'` (quote) `\`` (backquote) and `,` (unquote)
  */
 struct error readquote(struct istream *is, value_t *val) WARN_UNUSED;

 value_t intval(int i);
 value_t strval(char *str);
 value_t symval(char *str);
 value_t cons(value_t car, value_t cdr);
 value_t merge2(value_t front, value_t back);
 struct error read1(struct istream *is, value_t *val) WARN_UNUSED;
 value_t read(struct istream *is);
 value_t readn(struct istream *is);

 value_t car(value_t v);
 value_t cdr(value_t v);
 /// Return a pointer to the "nil" tail of the list, or NULL if you do
 /// something stupid.
 value_t *nilptr(value_t *val);
 value_t *carref(value_t v);
 value_t *cdrref(value_t v);
 /// @returns the `index`-th `cdr`
 value_t cxdr(value_t v, int index);
 /// @returns a reference to the `index`-th `cdr`
 value_t *cxdrref(value_t *v, int index);

 value_t deep_copy(value_t val);

 int cons_line(value_t val);
 char *cons_file(value_t val);

 bool integerp(value_t v);
 bool symbolp(value_t v);
 bool stringp(value_t v);
 bool consp(value_t v);
 bool listp(value_t v);
 bool nilp(value_t v);
 bool heapp(value_t v);
 bool closurep(value_t v);
 int length(value_t v);
 value_t elt(value_t v, int index);

 void printval(value_t v, int depth);

 bool symstreq(value_t sym, char *str);

 value_t create_closure(void *code, struct args *args, int ncaptures);

 /**
  * Set the `index`th capture variable of `closure`. This should really only be
  * called when creating a new closure.
  */
 void set_closure_capture_variable(int index, value_t value, value_t closure);

 extern value_t nil;
 extern value_t t;
	#pragma once

	#include "error.h"
	#include "istream.h"
	#include <stdbool.h>
	#include <stdio.h>
	#include <stdarg.h>

	#define INT_MASK 0b11
	#define INT_TAG 0b00

	#define CHAR_MASK 0xff
	#define CHAR_TAG 0b00001111

	#define BOOL_MASK 0b1111111
	#define BOOL_TAG 0b0011111

	#define HEAP_MASK 0b111

	#define CONS_TAG 0b001
	#define CLASS_TAG 0b010
	#define STRING_TAG 0b011
	#define SYMBOL_TAG 0b101
	#define CLOSURE_TAG 0b110

	struct cons;

	/// Represents a Lisp value
	typedef unsigned int value_t;

	struct cons
	{
	value_t car, cdr;

	/// Line of the input file from where this was parsed, 0 if it was created
	/// in Lisp.
	int line;

	/// Description of where the cons was parsed from, or NULL if generated in
	/// code.
	char *name;
	};

	/**
	* Represents how many arguments a function takes.
	*/
	struct args
	{
	/// The minimum valid number of arguments
	int num_required;

	/// The number of optional values
	int num_optional;

	/// Does this function accept variadic arguments? If `true`, any arguments
	/// after the required and optional arguments will be `cons`-ed to a list
	/// and passed as a final argument.
	bool variadic;

	/// The default values for the optional arguments, as expressions. These
	/// should be evaluated at the call site. They are known not to reference
	/// anything that could clash with scope at the call site.
	struct optional_argument
	{
	/// The default value of this argument
	value_t value;

	/// The name of this argument as a symbol
	value_t name;
	} optional_arguments[];
	};

	struct closure
	{
	/// How many arguments does this closure take
	struct args *args;
	/// How many free variables does it capture (i.e. length of `data`)
	int num_captured;
	/// The function pointer itself
	void *function;

	/// This will be passed in edi.
	value_t data[];
	};

	struct class
	{
	// A symbol representing the name of the class this is an instance
	// of.
	value_t type;

	int num_members;
	// C data
	void *cdata;
	value_t members[];
	};

	/// Default pool (no pool)
	#define NO_POOL 0

	/**
	* The max used pool number, don't touch this.
	*/
	extern unsigned char max_pool;

	/**
	* Current allocation pool, default 0 (no pool)
	*/
	extern unsigned char current_pool;

	// It is integral that this be 16 bytes long so that whatever follows it is
	// still aligned to 4 bits.
	struct alloc
	{
	/**
	* One of the type tags, eg CONS_TAG, etc
	*/
	unsigned int type_tag; // 4
	struct alloc prev, next; // + 8
	/**
	* Zero if this is not part of a release pool, pool number otherwise.
	*/
	unsigned char pool; // + 1
	/**
	* Reserved for the GC.
	*/
	unsigned int mark : 24; // + 3 = 16

	// Whatever else
	};

	extern struct alloc first_a, last_a;

	struct cons_alloc
	{
	struct alloc alloc;
	struct cons cons;
	};

	struct closure_alloc
	{
	struct alloc alloc;
	struct closure closure;
	};

	struct class_alloc
	{
	struct alloc alloc;
	struct class class;
	};

	/**
	* Create a new allocation pool.
	*/
	unsigned char make_pool();

	/**
	* Set the allocation pull
	* @returns the old pool, you should reset this later with pop_pool.
	*/
	unsigned char push_pool(unsigned char pool);

	/**
	* Set the allocation pool and throw away the old value.
	*/
	void pop_pool(unsigned char pool);

	void add_to_pool(value_t form);

	void del_alloc(struct alloc *alloc);

	/**
	* @returns true if pool is still alive (in scope).
	*/
	bool pool_alive(unsigned char pool);

	bool startswith(struct istream s, char pattern);

	struct error readsym(struct istream is, value_t val) WARN_UNUSED;
	struct error readstr(struct istream is, value_t val) WARN_UNUSED;
	struct error readlist(struct istream is, value_t val) WARN_UNUSED;
	struct error readint(struct istream is, value_t val) WARN_UNUSED;

	/**
	* Read a quoted form, including `'` (quote) `\`` (backquote) and `,` (unquote)
	*/
	struct error readquote(struct istream is, value_t val) WARN_UNUSED;

	value_t intval(int i);
	value_t strval(char *str);
	value_t symval(char *str);
	value_t cons(value_t car, value_t cdr);
	value_t merge2(value_t front, value_t back);
	struct error read1(struct istream is, value_t val) WARN_UNUSED;
	value_t read(struct istream *is);
	value_t readn(struct istream *is);

	value_t car(value_t v);
	value_t cdr(value_t v);
	/// Return a pointer to the "nil" tail of the list, or NULL if you do
	/// something stupid.
	value_t nilptr(value_t val);
	value_t *carref(value_t v);
	value_t *cdrref(value_t v);
	/// @returns the `index`-th `cdr`
	value_t cxdr(value_t v, int index);
	/// @returns a reference to the `index`-th `cdr`
	value_t cxdrref(value_t v, int index);

	value_t deep_copy(value_t val);

	int cons_line(value_t val);
	char *cons_file(value_t val);

	bool integerp(value_t v);
	bool symbolp(value_t v);
	bool stringp(value_t v);
	bool consp(value_t v);
	bool listp(value_t v);
	bool nilp(value_t v);
	bool heapp(value_t v);
	bool closurep(value_t v);
	int length(value_t v);
	value_t elt(value_t v, int index);

	void printval(value_t v, int depth);

	bool symstreq(value_t sym, char *str);

	value_t create_closure(void code, struct args args, int ncaptures);

	/**
	* Set the `index`th capture variable of `closure`. This should really only be
	* called when creating a new closure.
	*/
	void set_closure_capture_variable(int index, value_t value, value_t closure);

	extern value_t nil;
	extern value_t t;