#include "expression.h" #include #include "obj816.h" #include #include /* a ** b */ uint32_t power(uint32_t a, uint32_t b) { uint32_t rv = 1; for( ; b; b >>= 1) { if (b & 0x01) rv *= a; a = a * a; } return rv; } bool unary_op(unsigned op, std::vector &v) { if (v.size() >=1 ) { expr &a = v.back(); if (a.tag == OP_VAL) { switch(a.tag) { case OP_NOT: a.value = !a.value; break; case OP_NEG: a.value = -a.value; break; case OP_FLP: a.value = ~a.value; break; default: errx(EX_SOFTWARE, "Unsupported unary op %02x", a.tag); } return true; } } v.emplace_back(op); return false; } bool binary_op(unsigned op, std::vector &v) { if (v.size() >= 2) { expr &a = v[v.size() - 2]; expr &b = v[v.size() - 1]; if (a.tag == OP_VAL && b.tag == OP_VAL) { uint32_t value = 0; switch(op) { case OP_EXP: value = power(a.value, b.value); break; case OP_MUL: value = a.value * b.value; break; case OP_DIV: value = a.value / b.value; break; case OP_MOD: value = a.value % b.value; break; case OP_SHR: value = a.value >> b.value; break; case OP_SHL: value = a.value << b.value; break; case OP_ADD: value = a.value + b.value; break; case OP_SUB: value = a.value - b.value; break; case OP_AND: value = a.value & b.value; break; case OP_OR: value = a.value | b.value; break; case OP_XOR: value = a.value ^ b.value; break; case OP_EQ: value = a.value == b.value; break; case OP_GT: value = (int32_t)a.value > (int32_t)b.value; break; case OP_LT: value = (int32_t)a.value < (int32_t)b.value; break; case OP_UGT: value = a.value > b.value; break; case OP_ULT: value = a.value < b.value; break; default: errx(EX_SOFTWARE, "Unsupported binary op %02x", a.tag); } v.pop_back(); v.back().value = value; return true; } if (a.tag == OP_VAL && b.tag == OP_LOC) { switch(op) { case OP_ADD: { // constant + symbol expr tmp = b; tmp.value = a.value + b.value; v.pop_back(); v.pop_back(); v.emplace_back(tmp); return true; } #if 0 case OP_SUB: { // constant - symbol .. does this even make sense? expr tmp = b; tmp.value = a.value - b.value; v.pop_back(); v.pop_back(); v.emplace_back(tmp); return true; } #endif } } // optimization... regardless of where it's located, shifting > 24 bits will result in 0... if (a.tag == OP_LOC && b.tag == OP_VAL) { switch(op) { case OP_ADD: { a.value += b.value; v.pop_back(); return true; } case OP_SUB: { a.value -= b.value; v.pop_back(); return true; } } } if (a.tag == OP_LOC && b.tag == OP_LOC && a.section == b.section) { uint32_t value = 0; bool rv = false; switch (op) { case OP_SUB: // end - start value = a.value - b.value; rv = true; break; case OP_EQ: value = a.value == b.value; rv = true; break; case OP_GT: case OP_UGT: value = a.value > b.value; rv = true; break; case OP_LT: case OP_ULT: value = a.value < b.value; rv = true; break; } if (rv) { v.pop_back(); v.pop_back(); v.emplace_back(OP_VAL, value); return true; } } } v.emplace_back(op); return false; } bool simplify_expression(expression &e) { std::vector tmp; bool rv = false; for (auto &t : e.stack) { if (t.tag >= OP_BIN) { rv = binary_op(t.tag, tmp) || rv; } else if (t.tag >= OP_UNA) { rv = unary_op(t.tag, tmp) || rv; } else { tmp.emplace_back(t); } } if (rv) e.stack = std::move(tmp); return rv; } /* * if force is true, treat OP_LOC records as OP_VAL (for omf) */ optional evaluate_expression(expression &e, bool force) { std::vector tmp; for (const auto &t : e.stack) { if (t.tag == OP_LOC && force) { tmp.emplace_back(OP_VAL, t.value); continue; } if (t.tag >= OP_BIN) { binary_op(t.tag, tmp); } else if (t.tag >= OP_UNA) { unary_op(t.tag, tmp); } else { tmp.emplace_back(t); } } if (tmp.size() == 1 && tmp.front().tag == OP_VAL) return optional(tmp.front().value); return optional(); }