Current Path : /compat/linux/proc/self/root/usr/src/usr.bin/dc/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //compat/linux/proc/self/root/usr/src/usr.bin/dc/stack.c |
/* $OpenBSD: stack.c,v 1.11 2009/10/27 23:59:37 deraadt Exp $ */ /* * Copyright (c) 2003, Otto Moerbeek <otto@drijf.net> * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/usr.bin/dc/stack.c 203443 2010-02-03 21:06:13Z gabor $"); #include <err.h> #include <stdlib.h> #include <string.h> #include "extern.h" static __inline bool stack_empty(const struct stack *); static void stack_grow(struct stack *); static struct array *array_new(void); static __inline void array_free(struct array *); static struct array *array_dup(const struct array *); static __inline void array_grow(struct array *, size_t); static __inline void array_assign(struct array *, size_t, const struct value *); static __inline struct value *array_retrieve(const struct array *, size_t); void stack_init(struct stack *stack) { stack->size = 0; stack->sp = -1; stack->stack = NULL; } static __inline bool stack_empty(const struct stack *stack) { bool empty = stack->sp == -1; if (empty) warnx("stack empty"); return empty; } /* Clear number or string, but leave value itself */ void stack_free_value(struct value *v) { switch (v->type) { case BCODE_NONE: break; case BCODE_NUMBER: free_number(v->u.num); break; case BCODE_STRING: free(v->u.string); break; } if (v->array != NULL) { array_free(v->array); v->array = NULL; } } /* Copy number or string content into already allocated target */ struct value * stack_dup_value(const struct value *a, struct value *copy) { copy->type = a->type; switch (a->type) { case BCODE_NONE: break; case BCODE_NUMBER: copy->u.num = dup_number(a->u.num); break; case BCODE_STRING: copy->u.string = strdup(a->u.string); if (copy->u.string == NULL) err(1, NULL); break; } copy->array = a->array == NULL ? NULL : array_dup(a->array); return (copy); } size_t stack_size(const struct stack *stack) { return (stack->sp + 1); } void stack_dup(struct stack *stack) { struct value *value; struct value copy; value = stack_tos(stack); if (value == NULL) { warnx("stack empty"); return; } stack_push(stack, stack_dup_value(value, ©)); } void stack_swap(struct stack *stack) { struct value copy; if (stack->sp < 1) { warnx("stack empty"); return; } copy = stack->stack[stack->sp]; stack->stack[stack->sp] = stack->stack[stack->sp-1]; stack->stack[stack->sp-1] = copy; } static void stack_grow(struct stack *stack) { size_t i, new_size; if (++stack->sp == stack->size) { new_size = stack->size * 2 + 1; stack->stack = brealloc(stack->stack, new_size * sizeof(*stack->stack)); for (i = stack->size; i < new_size; i++) stack->stack[i].array = NULL; stack->size = new_size; } } void stack_pushnumber(struct stack *stack, struct number *b) { stack_grow(stack); stack->stack[stack->sp].type = BCODE_NUMBER; stack->stack[stack->sp].u.num = b; } void stack_pushstring(struct stack *stack, char *string) { stack_grow(stack); stack->stack[stack->sp].type = BCODE_STRING; stack->stack[stack->sp].u.string = string; } void stack_push(struct stack *stack, struct value *v) { switch (v->type) { case BCODE_NONE: stack_grow(stack); stack->stack[stack->sp].type = BCODE_NONE; break; case BCODE_NUMBER: stack_pushnumber(stack, v->u.num); break; case BCODE_STRING: stack_pushstring(stack, v->u.string); break; } stack->stack[stack->sp].array = v->array == NULL ? NULL : array_dup(v->array); } struct value * stack_tos(const struct stack *stack) { if (stack->sp == -1) return (NULL); return &stack->stack[stack->sp]; } void stack_set_tos(struct stack *stack, struct value *v) { if (stack->sp == -1) stack_push(stack, v); else { stack_free_value(&stack->stack[stack->sp]); stack->stack[stack->sp] = *v; stack->stack[stack->sp].array = v->array == NULL ? NULL : array_dup(v->array); } } struct value * stack_pop(struct stack *stack) { if (stack_empty(stack)) return (NULL); return &stack->stack[stack->sp--]; } struct number * stack_popnumber(struct stack *stack) { if (stack_empty(stack)) return (NULL); if (stack->stack[stack->sp].array != NULL) { array_free(stack->stack[stack->sp].array); stack->stack[stack->sp].array = NULL; } if (stack->stack[stack->sp].type != BCODE_NUMBER) { warnx("not a number"); /* XXX remove */ return (NULL); } return stack->stack[stack->sp--].u.num; } char * stack_popstring(struct stack *stack) { if (stack_empty(stack)) return (NULL); if (stack->stack[stack->sp].array != NULL) { array_free(stack->stack[stack->sp].array); stack->stack[stack->sp].array = NULL; } if (stack->stack[stack->sp].type != BCODE_STRING) { warnx("not a string"); /* XXX remove */ return (NULL); } return stack->stack[stack->sp--].u.string; } void stack_clear(struct stack *stack) { while (stack->sp >= 0) { stack_free_value(&stack->stack[stack->sp--]); } free(stack->stack); stack_init(stack); } void stack_print(FILE *f, const struct stack *stack, const char *prefix, u_int base) { ssize_t i; for (i = stack->sp; i >= 0; i--) { print_value(f, &stack->stack[i], prefix, base); putc('\n', f); } } static struct array * array_new(void) { struct array *a; a = bmalloc(sizeof(*a)); a->data = NULL; a->size = 0; return a; } static __inline void array_free(struct array *a) { size_t i; if (a == NULL) return; for (i = 0; i < a->size; i++) stack_free_value(&a->data[i]); free(a->data); free(a); } static struct array * array_dup(const struct array *a) { struct array *n; size_t i; if (a == NULL) return (NULL); n = array_new(); array_grow(n, a->size); for (i = 0; i < a->size; i++) stack_dup_value(&a->data[i], &n->data[i]); return (n); } static __inline void array_grow(struct array *array, size_t newsize) { size_t i; array->data = brealloc(array->data, newsize * sizeof(*array->data)); for (i = array->size; i < newsize; i++) { array->data[i].type = BCODE_NONE; array->data[i].array = NULL; } array->size = newsize; } static __inline void array_assign(struct array *array, size_t i, const struct value *v) { if (i >= array->size) array_grow(array, i + 1); stack_free_value(&array->data[i]); array->data[i] = *v; } static __inline struct value * array_retrieve(const struct array *array, size_t i) { if (i >= array->size) return (NULL); return &array->data[i]; } void frame_assign(struct stack *stack, size_t i, const struct value *v) { struct array *a; struct value n; if (stack->sp == -1) { n.type = BCODE_NONE; n.array = NULL; stack_push(stack, &n); } a = stack->stack[stack->sp].array; if (a == NULL) a = stack->stack[stack->sp].array = array_new(); array_assign(a, i, v); } struct value * frame_retrieve(const struct stack *stack, size_t i) { struct array *a; if (stack->sp == -1) return (NULL); a = stack->stack[stack->sp].array; if (a == NULL) a = stack->stack[stack->sp].array = array_new(); return array_retrieve(a, i); }