2019-06-12 01:38:27 -07:00
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#include <stdint.h>
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#include <stdlib.h>
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#include <assert.h>
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#include <memory.h>
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struct node_parent {
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char tag;
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};
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struct stack {
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int32_t size;
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int32_t count;
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struct node_parent** data;
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};
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struct node_app {
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char tag;
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struct node_parent* left;
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struct node_parent* right;
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};
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struct node_num {
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char tag;
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int32_t value;
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};
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struct node_global {
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char tag;
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int32_t arity;
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void (*function)(struct stack*);
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};
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struct node_ind {
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char tag;
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struct node_parent* next;
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};
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void stack_init(struct stack* stack) {
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stack->size = 16;
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stack->count = 0;
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stack->data = malloc(sizeof(*stack->data) * stack->size);
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}
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void stack_free(struct stack* stack) {
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free(stack->data);
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}
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void stack_push(struct stack* stack, struct node_parent* node) {
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assert(stack->count < stack->size);
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stack->data[stack->count++] = node;
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}
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struct node_parent* stack_peek(struct stack* stack, int32_t offset) {
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assert(offset + 1 <= stack->count);
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return stack->data[stack->count - offset - 1];
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}
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struct node_parent* stack_pop(struct stack* stack) {
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assert(stack->count > 0);
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return stack->data[--stack->count];
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}
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void stack_popn(struct stack* stack, int32_t count) {
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assert(stack->count >= count);
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stack->count -= count;
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}
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void stack_update(struct stack* stack, int32_t offset) {
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assert(stack->count >= offset + 2);
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2019-06-12 03:33:35 -07:00
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struct node_ind* to_replace = (struct node_ind*) stack->data[stack->count - 1 - 1 - offset];
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to_replace->tag = 3;
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to_replace->next = stack->data[stack->count - 1];
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2019-06-12 01:38:27 -07:00
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stack->count--;
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}
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void stack_alloc(struct stack* stack, int32_t count) {
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assert(stack->count + count <= stack->size);
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for(int32_t i = 0; i < count; i++) {
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stack->data[stack->count++] = malloc(sizeof(struct node_app));
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}
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}
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void stack_slide(struct stack* stack, int32_t count) {
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assert(stack->count > count);
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stack->data[stack->count - 1 - count] = stack->data[stack->count - 1];
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stack->count -= count;
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}
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void stack_set(struct stack* stack, int32_t index, struct node_parent* parent) {
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assert(stack->count > index);
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stack->data[stack->count - 1 - index] = parent;
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}
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int32_t stack_size(struct stack* stack) {
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return stack->count;
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}
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struct node_parent* malloc_node_num(int32_t value) {
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struct node_num* node = malloc(sizeof(struct node_app));
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node->tag = 0;
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node->value = value;
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return (struct node_parent*) node;
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}
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struct node_parent* malloc_node_app(struct node_parent* left, struct node_parent* right) {
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struct node_app* node = malloc(sizeof(struct node_app));
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node->tag = 1;
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node->left = left;
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node->right = right;
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return (struct node_parent*) node;
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}
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struct node_parent* malloc_node_global(int32_t arity, void (*function)(struct stack*)) {
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struct node_global* node = malloc(sizeof(struct node_app));
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node->tag = 2;
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node->arity = arity;
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node->function = function;
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return (struct node_parent*) node;
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}
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struct node_parent* malloc_node_indirect(struct node_parent* target) {
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struct node_ind* node = malloc(sizeof(struct node_app));
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node->tag = 3;
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node->next = target;
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return (struct node_parent*) node;
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}
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void unwind(struct stack* stack) {
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while(1) {
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assert(stack_size(stack) != 0);
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struct node_parent* node = stack_peek(stack, 0);
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if(node->tag == 0) {
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return;
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} else if(node->tag == 1) {
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stack_push(stack, ((struct node_app*) node)->left);
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} else if(node->tag == 2) {
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struct node_global* global = (struct node_global*) node;
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if(stack->size > global->arity) {
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2019-06-12 03:33:35 -07:00
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struct node_parent* root = stack_peek(stack, global->arity);
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stack_popn(stack, global->arity + 1);
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stack_push(stack, root);
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while(root->tag == 1) {
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struct node_app* app = (struct node_app*) root;
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stack_push(stack, app->right);
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root = app->left;
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2019-06-12 01:38:27 -07:00
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}
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global->function(stack);
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} else {
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stack_popn(stack, stack_size(stack) - 1);
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return;
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}
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} else if(node->tag == 3) {
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struct node_ind* ind = (struct node_ind*) node;
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stack_pop(stack);
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stack_push(stack, ind->next);
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}
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}
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}
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struct node_parent* eval(struct node_parent* start) {
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struct stack new_stack;
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stack_init(&new_stack);
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stack_push(&new_stack, start);
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unwind(&new_stack);
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struct node_parent* final_node = stack_pop(&new_stack);
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stack_free(&new_stack);
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return final_node;
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}
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extern void main_supercomb(struct stack* stack);
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int main(int argc, char** argv) {
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struct node_parent* result = eval(malloc_node_global(0, main_supercomb));
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}
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