335 lines
8.6 KiB
C
335 lines
8.6 KiB
C
#include "exec.h"
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#include "bytecode.h"
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void exec_init(exec_t* self)
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{
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assert(self);
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self->pc = 0;
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err_init(&self->err);
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}
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void exec_free(exec_t* self)
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{
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assert(self);
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err_free(&self->err);
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}
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void exec_module(exec_t* self, module_t* module)
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{
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assert(self);
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assert(module);
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self->pc = 0;
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while (self->pc < module->prog.instrs.size)
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{
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if (!err_is_ok(&self->err))
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{
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return;
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}
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instr_t const* instr = module->prog.instrs.data[self->pc];
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exec_instr(self, module, instr->opcode, instr->param);
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}
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}
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void exec_instr(exec_t* self,
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module_t* module,
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Opcode op,
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int param)
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{
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assert(self);
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ccm_t* ccm = &module->ccm;
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switch (op)
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{
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case OP_LOCAL_STORE: {
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CCM value = ccm_pop(ccm);
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int addr = param;
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ccm_set(ccm, value, addr);
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ccm_push(ccm, value);
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self->pc++;
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} break;
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case OP_LOCAL_LOAD: {
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int addr = param;
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CCM value = ccm_get(ccm, addr);
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ccm_push(ccm, value);
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self->pc++;
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} break;
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case OP_MK_ARRAY: {
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vec_t* vec = malloc(sizeof(vec_t));
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vec_init(vec);
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for (int i=0; i<param; i++)
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{
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CCM element = ccm_pop(ccm);
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vec_push(vec, ccm_to_value(ccm, element));
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}
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int line = ((value_t*) vec->data[0])->line;
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size_t addr = ccm_store_global(
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ccm,
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ccm_to_array(ccm, vec, line)
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);
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ccm_push(ccm, ccm_to_ref(ccm, addr, line));
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self->pc++;
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} break;
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case OP_EQ: {
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ccm_eq(ccm);
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self->pc++;
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} break;
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case OP_LT: {
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ccm_lt(ccm);
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self->pc++;
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} break;
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case OP_GT: {
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ccm_gt(ccm);
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self->pc++;
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} break;
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case OP_INDEX: {
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CCM ccm_target = ccm_pop(ccm);
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value_t* result = NULL;
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if (ccm_is_str(ccm, ccm_target))
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{
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int line =
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((value_t*)ccm->values.data[ccm_target])->line
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;
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if (param != 1)
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{
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err_push(&self->err, line,
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"index out of bounds");
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return;
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}
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char const* target =
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ccm_from_str(ccm, ccm_target);
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size_t size = strlen(target);
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CCM ccm_idx = ccm_pop(ccm);
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int idx = ccm_from_num(ccm, ccm_idx);
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if (idx < 0)
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{
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idx = size + idx;
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}
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if (idx < 0 || idx >= (ssize_t) size)
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{
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assert(size > 0);
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err_push(&self->err, line,
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"index out of bounds");
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return;
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}
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char buf[2] = {target[idx], '\0'};
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ccm_push(ccm, ccm_to_str(ccm, buf, line));
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}
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else if (ccm_is_tuple(ccm, ccm_target)
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|| ccm_is_ref(ccm, ccm_target))
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{
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vec_t* target;
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if (ccm_is_tuple(ccm, ccm_target)) {
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target = ccm_from_tuple(ccm, ccm_target);
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} else {
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target = ccm_to_value(ccm, ccm_target)->data.array;
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}
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for (int i=0; i<param; i++)
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{
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CCM ccm_idx = ccm_pop(ccm);
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int idx = ccm_from_num(ccm, ccm_idx);
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if (idx < 0)
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{
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idx = target->size + idx;
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}
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if (idx < 0 || idx >= (ssize_t) target->size)
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{
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assert(target->size > 0);
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err_push(&self->err, ((value_t*)target->data[0])->line,
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"index out of bounds");
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return;
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}
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value_t* val = target->data[idx];
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if (i == param - 1) {
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result = val;
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} else if (ccm_is_tuple(ccm, ccm_target) ) {
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target = val->data.tuple;
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} else if (ccm_is_ref(ccm, ccm_target)) {
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target = val->data.array;
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} else { assert(0); }
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}
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CCM ccm_result = ccm_from_value(ccm, result);
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if (ccm_is_array(ccm, ccm_result)) {
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CCM ref = ccm_to_ref(
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ccm,
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ccm_store_global(ccm, ccm_result),
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result->line
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);
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ccm_push(ccm, ref);
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} else {
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ccm_push(ccm, ccm_result);
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}
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} else {
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assert(0);
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}
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self->pc++;
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} break;
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case OP_NOT: {
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ccm_not(ccm);
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self->pc++;
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} break;
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case OP_IN: {
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ccm_in(ccm);
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self->pc++;
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} break;
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case OP_BR: {
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self->pc = param;
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} break;
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case OP_BRF: {
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CCM value = ccm_pop(ccm);
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int val = ccm_from_boolean(ccm, value);
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if (val)
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{
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self->pc++;
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}
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else
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{
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self->pc = param;
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}
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} break;
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case OP_ASSERT_NE:
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case OP_ASSERT_EQ: {
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CCM val = ccm_pop(ccm);
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vec_t* values = ccm_from_tuple(ccm, val);
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assert(values->size == 2);
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int oracle = 1;
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if (op == OP_ASSERT_NE)
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{
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oracle = 0;
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}
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value_t* val_lhs = values->data[0];
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value_t* val_rhs = values->data[1];
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if (val_lhs->type == TYPE_REF)
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{
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CCM c = ccm_add_value(ccm, val_lhs);
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value_t* myval = ccm_to_value(ccm, c);
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val_lhs = myval;
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}
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if (val_rhs->type == TYPE_REF)
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{
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CCM c = ccm_add_value(ccm, val_rhs);
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value_t* myval = ccm_to_value(ccm, c);
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val_rhs = myval;
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}
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if (value_equals(val_lhs, val_rhs) == !oracle)
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{
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char lhs[CCM_STRLEN];
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value_str(val_lhs, lhs, CCM_STRLEN);
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char rhs[CCM_STRLEN];
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value_str(val_rhs, rhs, CCM_STRLEN);
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char const* operator = oracle ? "==" : "!=";
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err_push(
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&self->err,
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((value_t*) values->data[0])->line,
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"assertion failed: <%s> %s <%s>",
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lhs, operator, rhs
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);
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} else {
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ccm_push(ccm,
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ccm_to_boolean(
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ccm, 1,
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((value_t*) values->data[0])->line
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)
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);
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}
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self->pc++;
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} break;
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case OP_PUSH: {
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CCM value = (CCM) module->prog.constants.data[param];
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ccm_push(ccm, value);
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self->pc++;
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} break;
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case OP_POP: {
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ccm_pop(ccm);
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self->pc++;
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} break;
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case OP_ADD: { ccm_add(ccm); self->pc++; } break;
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case OP_SUB: { ccm_sub(ccm); self->pc++; } break;
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case OP_USUB: { ccm_usub(ccm); self->pc++; } break;
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case OP_MUL: { ccm_mul(ccm); self->pc++; } break;
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case OP_DIV: { ccm_div(ccm); self->pc++; } break;
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case OP_MOD: { ccm_mod(ccm); self->pc++; } break;
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case OP_POW: { ccm_pow(ccm); self->pc++; } break;
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case OP_MK_TUPLE: {
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vec_t* values = malloc(sizeof(vec_t));
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vec_init(values);
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int line = -1;
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for (int i=0; i<param; i++)
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{
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CCM val = ccm_pop(ccm);
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value_t* v = value_new_clone(ccm_to_value(ccm, val));
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vec_push(values, v);
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if (line == -1)
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{
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line = v->line;
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}
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}
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CCM value = ccm_to_tuple(ccm, values, line);
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ccm_push(ccm, value);
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self->pc++;
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} break;
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default: {
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fprintf(stderr,
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"cannot exec opcode '%s'",
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OpcodeStr[op]);
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abort();
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}
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}
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}
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