176 lines
5.2 KiB
C
176 lines
5.2 KiB
C
/*
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* vm_stack.h - Unlambda VM segmented stacks definitions
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*
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* Copyright (C) 2020 CismonX <admin@cismon.net>
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*
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* This file is part of U6a.
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*
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* U6a is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* U6a is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with U6a. If not, see <https://www.gnu.org/licenses/>.
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*/
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#ifndef U6A_VM_STACK_H_
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#define U6A_VM_STACK_H_
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#include "common.h"
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#include "vm_defs.h"
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#include <stdint.h>
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#include <stdbool.h>
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#include <setjmp.h>
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struct u6a_vm_stack {
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struct u6a_vm_stack* prev;
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uint32_t top;
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uint32_t refcnt;
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struct u6a_vm_var_fn elems[];
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};
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struct u6a_vm_stack_ctx {
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struct u6a_vm_stack* active_stack;
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uint32_t stack_seg_len;
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struct u6a_vm_pool_ctx* pool_ctx;
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jmp_buf* jmp_ctx;
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const char* err_stage;
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};
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bool
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u6a_vm_stack_init(struct u6a_vm_stack_ctx* ctx, uint32_t stack_seg_len, jmp_buf* jmp_ctx, const char* err_stage);
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static inline struct u6a_vm_var_fn
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u6a_vm_stack_top(struct u6a_vm_stack_ctx* ctx) {
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struct u6a_vm_stack* vs = ctx->active_stack;
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if (UNLIKELY(vs->top == UINT32_MAX)) {
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vs = vs->prev;
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if (UNLIKELY(vs == NULL)) {
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U6A_VM_ERR(ctx);
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}
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ctx->active_stack = vs;
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}
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return vs->elems[vs->top];
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}
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void
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u6a_vm_stack_push1_split_(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_var_fn v0);
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static inline void
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u6a_vm_stack_push1(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_var_fn v0) {
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struct u6a_vm_stack* vs = ctx->active_stack;
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if (LIKELY(vs->top + 1 < ctx->stack_seg_len)) {
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vs->elems[++vs->top] = v0;
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} else {
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u6a_vm_stack_push1_split_(ctx, v0);
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}
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}
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void
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u6a_vm_stack_push2_split_(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_var_fn v0, struct u6a_vm_var_fn v1);
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static inline void
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u6a_vm_stack_push2(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_var_fn v0, struct u6a_vm_var_fn v1) {
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struct u6a_vm_stack* vs = ctx->active_stack;
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if (LIKELY(vs->top + 2 < ctx->stack_seg_len)) {
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vs->elems[++vs->top] = v0;
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vs->elems[++vs->top] = v1;
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} else {
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u6a_vm_stack_push2_split_(ctx, v0, v1);
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}
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}
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void
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u6a_vm_stack_push3_split_(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_var_fn v0, struct u6a_vm_var_fn v1,
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struct u6a_vm_var_fn v2);
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static inline void
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u6a_vm_stack_push3(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_var_fn v0, struct u6a_vm_var_fn v1,
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struct u6a_vm_var_fn v2)
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{
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struct u6a_vm_stack* vs = ctx->active_stack;
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if (LIKELY(vs->top + 3 < ctx->stack_seg_len)) {
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vs->elems[++vs->top] = v0;
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vs->elems[++vs->top] = v1;
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vs->elems[++vs->top] = v2;
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} else {
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u6a_vm_stack_push3_split_(ctx, v0, v1, v2);
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}
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}
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void
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u6a_vm_stack_push4_split_(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_var_fn v0, struct u6a_vm_var_fn v1,
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struct u6a_vm_var_fn v2, struct u6a_vm_var_fn v3);
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static inline void
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u6a_vm_stack_push4(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_var_fn v0, struct u6a_vm_var_fn v1,
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struct u6a_vm_var_fn v2, struct u6a_vm_var_fn v3)
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{
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struct u6a_vm_stack* vs = ctx->active_stack;
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if (LIKELY(vs->top + 4 < ctx->stack_seg_len)) {
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vs->elems[++vs->top] = v0;
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vs->elems[++vs->top] = v1;
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vs->elems[++vs->top] = v2;
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vs->elems[++vs->top] = v3;
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} else {
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u6a_vm_stack_push4_split_(ctx, v0, v1, v2, v3);
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}
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}
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void
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u6a_vm_stack_pop_split_(struct u6a_vm_stack_ctx* ctx);
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static inline void
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u6a_vm_stack_pop(struct u6a_vm_stack_ctx* ctx) {
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struct u6a_vm_stack* vs = ctx->active_stack;
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if (UNLIKELY(vs->top-- == UINT32_MAX)) {
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u6a_vm_stack_pop_split_(ctx);
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}
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}
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struct u6a_vm_var_fn
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u6a_vm_stack_xch_split_(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_var_fn v0);
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static inline struct u6a_vm_var_fn
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u6a_vm_stack_xch(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_var_fn v0) {
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struct u6a_vm_stack* vs = ctx->active_stack;
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struct u6a_vm_var_fn elem;
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// XCH on segmented stacks is inefficient, perhaps there's a better solution?
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if (LIKELY(vs->top != 0 && vs->top != UINT32_MAX)) {
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elem = vs->elems[vs->top - 1];
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vs->elems[vs->top - 1] = v0;
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} else {
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elem = u6a_vm_stack_xch_split_(ctx, v0);
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}
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return elem;
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}
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struct u6a_vm_stack*
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u6a_vm_stack_dup(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_stack* vs);
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static inline struct u6a_vm_stack*
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u6a_vm_stack_save(struct u6a_vm_stack_ctx* ctx) {
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return u6a_vm_stack_dup(ctx, ctx->active_stack);
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}
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void
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u6a_vm_stack_discard(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_stack* vs);
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void
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u6a_vm_stack_destroy(struct u6a_vm_stack_ctx* ctx);
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static inline void
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u6a_vm_stack_resume(struct u6a_vm_stack_ctx* ctx, struct u6a_vm_stack* vs) {
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u6a_vm_stack_destroy(ctx);
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ctx->active_stack = vs;
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}
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#endif
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