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VM: Refactor math.hpp/cpp to Factor style

db4
Erik Charlebois 2013-05-11 22:13:48 -04:00
parent 38802ce173
commit d9e225e1dc
2 changed files with 315 additions and 412 deletions
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616
vm/math.cpp
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@ -1,516 +1,430 @@
#include "master.hpp"
namespace factor
{
namespace factor {
void factor_vm::primitive_bignum_to_fixnum()
{
ctx->replace(tag_fixnum(bignum_to_fixnum(untag<bignum>(ctx->peek()))));
void factor_vm::primitive_bignum_to_fixnum() {
ctx->replace(tag_fixnum(bignum_to_fixnum(untag<bignum>(ctx->peek()))));
}
void factor_vm::primitive_float_to_fixnum()
{
ctx->replace(tag_fixnum(float_to_fixnum(ctx->peek())));
void factor_vm::primitive_float_to_fixnum() {
ctx->replace(tag_fixnum(float_to_fixnum(ctx->peek())));
}
/* does not allocate, even though from_signed_cell can allocate */
/* Division can only overflow when we are dividing the most negative fixnum
by -1. */
void factor_vm::primitive_fixnum_divint()
{
fixnum y = untag_fixnum(ctx->pop());
fixnum x = untag_fixnum(ctx->peek());
fixnum result = x / y;
if(result == -fixnum_min)
/* Does not allocate */
ctx->replace(from_signed_cell(-fixnum_min));
else
ctx->replace(tag_fixnum(result));
void factor_vm::primitive_fixnum_divint() {
fixnum y = untag_fixnum(ctx->pop());
fixnum x = untag_fixnum(ctx->peek());
fixnum result = x / y;
if (result == -fixnum_min)
/* Does not allocate */
ctx->replace(from_signed_cell(-fixnum_min));
else
ctx->replace(tag_fixnum(result));
}
/* does not allocate, even though from_signed_cell can allocate */
void factor_vm::primitive_fixnum_divmod()
{
cell *s0 = (cell *)(ctx->datastack);
cell *s1 = (cell *)(ctx->datastack - sizeof(cell));
fixnum y = untag_fixnum(*s0);
fixnum x = untag_fixnum(*s1);
if(y == -1 && x == fixnum_min)
{
/* Does not allocate */
*s1 = from_signed_cell(-fixnum_min);
*s0 = tag_fixnum(0);
}
else
{
*s1 = tag_fixnum(x / y);
*s0 = tag_fixnum(x % y);
}
void factor_vm::primitive_fixnum_divmod() {
cell* s0 = (cell*)(ctx->datastack);
cell* s1 = (cell*)(ctx->datastack - sizeof(cell));
fixnum y = untag_fixnum(*s0);
fixnum x = untag_fixnum(*s1);
if (y == -1 && x == fixnum_min) {
/* Does not allocate */
*s1 = from_signed_cell(-fixnum_min);
*s0 = tag_fixnum(0);
} else {
*s1 = tag_fixnum(x / y);
*s0 = tag_fixnum(x % y);
}
}
/*
* If we're shifting right by n bits, we won't overflow as long as none of the
* high WORD_SIZE-TAG_BITS-n bits are set.
*/
inline fixnum factor_vm::sign_mask(fixnum x)
{
return x >> (WORD_SIZE - 1);
inline fixnum factor_vm::sign_mask(fixnum x) { return x >> (WORD_SIZE - 1); }
inline fixnum factor_vm::branchless_max(fixnum x, fixnum y) {
return (x - ((x - y) & sign_mask(x - y)));
}
inline fixnum factor_vm::branchless_max(fixnum x, fixnum y)
{
return (x - ((x - y) & sign_mask(x - y)));
inline fixnum factor_vm::branchless_abs(fixnum x) {
return (x ^ sign_mask(x)) - sign_mask(x);
}
inline fixnum factor_vm::branchless_abs(fixnum x)
{
return (x ^ sign_mask(x)) - sign_mask(x);
void factor_vm::primitive_fixnum_shift() {
fixnum y = untag_fixnum(ctx->pop());
fixnum x = untag_fixnum(ctx->peek());
if (x == 0)
return;
else if (y < 0) {
y = branchless_max(y, -WORD_SIZE + 1);
ctx->replace(tag_fixnum(x >> -y));
return;
} else if (y < WORD_SIZE - TAG_BITS) {
fixnum mask = -((fixnum) 1 << (WORD_SIZE - 1 - TAG_BITS - y));
if (!(branchless_abs(x) & mask)) {
ctx->replace(tag_fixnum(x << y));
return;
}
}
ctx->replace(tag<bignum>(bignum_arithmetic_shift(fixnum_to_bignum(x), y)));
}
void factor_vm::primitive_fixnum_shift()
{
fixnum y = untag_fixnum(ctx->pop());
fixnum x = untag_fixnum(ctx->peek());
if(x == 0)
return;
else if(y < 0)
{
y = branchless_max(y,-WORD_SIZE + 1);
ctx->replace(tag_fixnum(x >> -y));
return;
}
else if(y < WORD_SIZE - TAG_BITS)
{
fixnum mask = -((fixnum)1 << (WORD_SIZE - 1 - TAG_BITS - y));
if(!(branchless_abs(x) & mask))
{
ctx->replace(tag_fixnum(x << y));
return;
}
}
ctx->replace(tag<bignum>(bignum_arithmetic_shift(
fixnum_to_bignum(x),y)));
void factor_vm::primitive_fixnum_to_bignum() {
ctx->replace(tag<bignum>(fixnum_to_bignum(untag_fixnum(ctx->peek()))));
}
void factor_vm::primitive_fixnum_to_bignum()
{
ctx->replace(tag<bignum>(fixnum_to_bignum(untag_fixnum(ctx->peek()))));
void factor_vm::primitive_float_to_bignum() {
ctx->replace(tag<bignum>(float_to_bignum(ctx->peek())));
}
void factor_vm::primitive_float_to_bignum()
{
ctx->replace(tag<bignum>(float_to_bignum(ctx->peek())));
#define POP_BIGNUMS(x, y) \
bignum* y = untag<bignum>(ctx->pop()); \
bignum* x = untag<bignum>(ctx->peek());
void factor_vm::primitive_bignum_eq() {
POP_BIGNUMS(x, y);
ctx->replace(tag_boolean(bignum_equal_p(x, y)));
}
#define POP_BIGNUMS(x,y) \
bignum * y = untag<bignum>(ctx->pop()); \
bignum * x = untag<bignum>(ctx->peek());
void factor_vm::primitive_bignum_eq()
{
POP_BIGNUMS(x,y);
ctx->replace(tag_boolean(bignum_equal_p(x,y)));
void factor_vm::primitive_bignum_add() {
POP_BIGNUMS(x, y);
ctx->replace(tag<bignum>(bignum_add(x, y)));
}
void factor_vm::primitive_bignum_add()
{
POP_BIGNUMS(x,y);
ctx->replace(tag<bignum>(bignum_add(x,y)));
void factor_vm::primitive_bignum_subtract() {
POP_BIGNUMS(x, y);
ctx->replace(tag<bignum>(bignum_subtract(x, y)));
}
void factor_vm::primitive_bignum_subtract()
{
POP_BIGNUMS(x,y);
ctx->replace(tag<bignum>(bignum_subtract(x,y)));
void factor_vm::primitive_bignum_multiply() {
POP_BIGNUMS(x, y);
ctx->replace(tag<bignum>(bignum_multiply(x, y)));
}
void factor_vm::primitive_bignum_multiply()
{
POP_BIGNUMS(x,y);
ctx->replace(tag<bignum>(bignum_multiply(x,y)));
void factor_vm::primitive_bignum_divint() {
POP_BIGNUMS(x, y);
ctx->replace(tag<bignum>(bignum_quotient(x, y)));
}
void factor_vm::primitive_bignum_divint()
{
POP_BIGNUMS(x,y);
ctx->replace(tag<bignum>(bignum_quotient(x,y)));
void factor_vm::primitive_bignum_divmod() {
cell* s0 = (cell*)(ctx->datastack);
cell* s1 = (cell*)(ctx->datastack - sizeof(cell));
bignum* y = untag<bignum>(*s0);
bignum* x = untag<bignum>(*s1);
bignum* q, *r;
bignum_divide(x, y, &q, &r);
*s1 = tag<bignum>(q);
*s0 = tag<bignum>(r);
}
void factor_vm::primitive_bignum_divmod()
{
cell *s0 = (cell *)(ctx->datastack);
cell *s1 = (cell *)(ctx->datastack - sizeof(cell));
bignum *y = untag<bignum>(*s0);
bignum *x = untag<bignum>(*s1);
bignum *q, *r;
bignum_divide(x, y, &q, &r);
*s1 = tag<bignum>(q);
*s0 = tag<bignum>(r);
void factor_vm::primitive_bignum_mod() {
POP_BIGNUMS(x, y);
ctx->replace(tag<bignum>(bignum_remainder(x, y)));
}
void factor_vm::primitive_bignum_mod()
{
POP_BIGNUMS(x,y);
ctx->replace(tag<bignum>(bignum_remainder(x,y)));
void factor_vm::primitive_bignum_gcd() {
POP_BIGNUMS(x, y);
ctx->replace(tag<bignum>(bignum_gcd(x, y)));
}
void factor_vm::primitive_bignum_gcd()
{
POP_BIGNUMS(x,y);
ctx->replace(tag<bignum>(bignum_gcd(x,y)));
void factor_vm::primitive_bignum_and() {
POP_BIGNUMS(x, y);
ctx->replace(tag<bignum>(bignum_bitwise_and(x, y)));
}
void factor_vm::primitive_bignum_and()
{
POP_BIGNUMS(x,y);
ctx->replace(tag<bignum>(bignum_bitwise_and(x,y)));
void factor_vm::primitive_bignum_or() {
POP_BIGNUMS(x, y);
ctx->replace(tag<bignum>(bignum_bitwise_ior(x, y)));
}
void factor_vm::primitive_bignum_or()
{
POP_BIGNUMS(x,y);
ctx->replace(tag<bignum>(bignum_bitwise_ior(x,y)));
void factor_vm::primitive_bignum_xor() {
POP_BIGNUMS(x, y);
ctx->replace(tag<bignum>(bignum_bitwise_xor(x, y)));
}
void factor_vm::primitive_bignum_xor()
{
POP_BIGNUMS(x,y);
ctx->replace(tag<bignum>(bignum_bitwise_xor(x,y)));
void factor_vm::primitive_bignum_shift() {
fixnum y = untag_fixnum(ctx->pop());
bignum* x = untag<bignum>(ctx->peek());
ctx->replace(tag<bignum>(bignum_arithmetic_shift(x, y)));
}
void factor_vm::primitive_bignum_shift()
{
fixnum y = untag_fixnum(ctx->pop());
bignum* x = untag<bignum>(ctx->peek());
ctx->replace(tag<bignum>(bignum_arithmetic_shift(x,y)));
void factor_vm::primitive_bignum_less() {
POP_BIGNUMS(x, y);
ctx->replace(tag_boolean(bignum_compare(x, y) == bignum_comparison_less));
}
void factor_vm::primitive_bignum_less()
{
POP_BIGNUMS(x,y);
ctx->replace(tag_boolean(bignum_compare(x,y) == bignum_comparison_less));
void factor_vm::primitive_bignum_lesseq() {
POP_BIGNUMS(x, y);
ctx->replace(tag_boolean(bignum_compare(x, y) != bignum_comparison_greater));
}
void factor_vm::primitive_bignum_lesseq()
{
POP_BIGNUMS(x,y);
ctx->replace(tag_boolean(bignum_compare(x,y) != bignum_comparison_greater));
void factor_vm::primitive_bignum_greater() {
POP_BIGNUMS(x, y);
ctx->replace(tag_boolean(bignum_compare(x, y) == bignum_comparison_greater));
}
void factor_vm::primitive_bignum_greater()
{
POP_BIGNUMS(x,y);
ctx->replace(tag_boolean(bignum_compare(x,y) == bignum_comparison_greater));
void factor_vm::primitive_bignum_greatereq() {
POP_BIGNUMS(x, y);
ctx->replace(tag_boolean(bignum_compare(x, y) != bignum_comparison_less));
}
void factor_vm::primitive_bignum_greatereq()
{
POP_BIGNUMS(x,y);
ctx->replace(tag_boolean(bignum_compare(x,y) != bignum_comparison_less));
void factor_vm::primitive_bignum_not() {
ctx->replace(tag<bignum>(bignum_bitwise_not(untag<bignum>(ctx->peek()))));
}
void factor_vm::primitive_bignum_not()
{
ctx->replace(tag<bignum>(bignum_bitwise_not(untag<bignum>(ctx->peek()))));
void factor_vm::primitive_bignum_bitp() {
int bit = (int) to_fixnum(ctx->pop());
bignum* x = untag<bignum>(ctx->peek());
ctx->replace(tag_boolean(bignum_logbitp(bit, x)));
}
void factor_vm::primitive_bignum_bitp()
{
int bit = (int)to_fixnum(ctx->pop());
bignum *x = untag<bignum>(ctx->peek());
ctx->replace(tag_boolean(bignum_logbitp(bit,x)));
}
void factor_vm::primitive_bignum_log2()
{
ctx->replace(tag<bignum>(bignum_integer_length(untag<bignum>(ctx->peek()))));
void factor_vm::primitive_bignum_log2() {
ctx->replace(tag<bignum>(bignum_integer_length(untag<bignum>(ctx->peek()))));
}
/* Allocates memory */
cell factor_vm::unbox_array_size_slow()
{
if(tagged<object>(ctx->peek()).type() == BIGNUM_TYPE)
{
bignum *zero = untag<bignum>(bignum_zero);
GC_BIGNUM(zero);
bignum *max = cell_to_bignum(array_size_max);
bignum *n = untag<bignum>(ctx->peek());
if(bignum_compare(n,zero) != bignum_comparison_less
&& bignum_compare(n,max) == bignum_comparison_less)
{
ctx->pop();
return bignum_to_cell(n);
}
}
cell factor_vm::unbox_array_size_slow() {
if (tagged<object>(ctx->peek()).type() == BIGNUM_TYPE) {
bignum* zero = untag<bignum>(bignum_zero);
GC_BIGNUM(zero);
bignum* max = cell_to_bignum(array_size_max);
bignum* n = untag<bignum>(ctx->peek());
if (bignum_compare(n, zero) != bignum_comparison_less &&
bignum_compare(n, max) == bignum_comparison_less) {
ctx->pop();
return bignum_to_cell(n);
}
}
general_error(ERROR_ARRAY_SIZE,ctx->pop(),tag_fixnum(array_size_max));
return 0; /* can't happen */
general_error(ERROR_ARRAY_SIZE, ctx->pop(), tag_fixnum(array_size_max));
return 0; /* can't happen */
}
/* Allocates memory */
void factor_vm::primitive_fixnum_to_float()
{
ctx->replace(allot_float(fixnum_to_float(ctx->peek())));
void factor_vm::primitive_fixnum_to_float() {
ctx->replace(allot_float(fixnum_to_float(ctx->peek())));
}
/* Allocates memory */
void factor_vm::primitive_format_float()
{
byte_array *array = allot_byte_array(100);
char *format = alien_offset(ctx->pop());
double value = untag_float_check(ctx->peek());
SNPRINTF(array->data<char>(),99,format,value);
ctx->replace(tag<byte_array>(array));
void factor_vm::primitive_format_float() {
byte_array* array = allot_byte_array(100);
char* format = alien_offset(ctx->pop());
double value = untag_float_check(ctx->peek());
SNPRINTF(array->data<char>(), 99, format, value);
ctx->replace(tag<byte_array>(array));
}
#define POP_FLOATS(x,y) \
double y = untag_float(ctx->pop()); \
double x = untag_float(ctx->peek());
#define POP_FLOATS(x, y) \
double y = untag_float(ctx->pop()); \
double x = untag_float(ctx->peek());
void factor_vm::primitive_float_eq()
{
POP_FLOATS(x,y);
ctx->replace(tag_boolean(x == y));
void factor_vm::primitive_float_eq() {
POP_FLOATS(x, y);
ctx->replace(tag_boolean(x == y));
}
/* Allocates memory */
void factor_vm::primitive_float_add()
{
POP_FLOATS(x,y);
ctx->replace(allot_float(x + y));
void factor_vm::primitive_float_add() {
POP_FLOATS(x, y);
ctx->replace(allot_float(x + y));
}
/* Allocates memory */
void factor_vm::primitive_float_subtract()
{
POP_FLOATS(x,y);
ctx->replace(allot_float(x - y));
void factor_vm::primitive_float_subtract() {
POP_FLOATS(x, y);
ctx->replace(allot_float(x - y));
}
/* Allocates memory */
void factor_vm::primitive_float_multiply()
{
POP_FLOATS(x,y);
ctx->replace(allot_float(x * y));
void factor_vm::primitive_float_multiply() {
POP_FLOATS(x, y);
ctx->replace(allot_float(x * y));
}
/* Allocates memory */
void factor_vm::primitive_float_divfloat()
{
POP_FLOATS(x,y);
ctx->replace(allot_float(x / y));
void factor_vm::primitive_float_divfloat() {
POP_FLOATS(x, y);
ctx->replace(allot_float(x / y));
}
void factor_vm::primitive_float_less()
{
POP_FLOATS(x,y);
ctx->replace(tag_boolean(x < y));
void factor_vm::primitive_float_less() {
POP_FLOATS(x, y);
ctx->replace(tag_boolean(x < y));
}
void factor_vm::primitive_float_lesseq()
{
POP_FLOATS(x,y);
ctx->replace(tag_boolean(x <= y));
void factor_vm::primitive_float_lesseq() {
POP_FLOATS(x, y);
ctx->replace(tag_boolean(x <= y));
}
void factor_vm::primitive_float_greater()
{
POP_FLOATS(x,y);
ctx->replace(tag_boolean(x > y));
void factor_vm::primitive_float_greater() {
POP_FLOATS(x, y);
ctx->replace(tag_boolean(x > y));
}
void factor_vm::primitive_float_greatereq()
{
POP_FLOATS(x,y);
ctx->replace(tag_boolean(x >= y));
void factor_vm::primitive_float_greatereq() {
POP_FLOATS(x, y);
ctx->replace(tag_boolean(x >= y));
}
/* Allocates memory */
void factor_vm::primitive_float_bits()
{
ctx->push(from_unsigned_cell(float_bits((float)untag_float_check(ctx->pop()))));
void factor_vm::primitive_float_bits() {
ctx->push(
from_unsigned_cell(float_bits((float) untag_float_check(ctx->pop()))));
}
/* Allocates memory */
void factor_vm::primitive_bits_float()
{
ctx->push(allot_float(bits_float((u32)to_cell(ctx->pop()))));
void factor_vm::primitive_bits_float() {
ctx->push(allot_float(bits_float((u32) to_cell(ctx->pop()))));
}
void factor_vm::primitive_double_bits()
{
ctx->push(from_unsigned_8(double_bits(untag_float_check(ctx->pop()))));
void factor_vm::primitive_double_bits() {
ctx->push(from_unsigned_8(double_bits(untag_float_check(ctx->pop()))));
}
/* Allocates memory */
void factor_vm::primitive_bits_double()
{
ctx->push(allot_float(bits_double(to_unsigned_8(ctx->pop()))));
void factor_vm::primitive_bits_double() {
ctx->push(allot_float(bits_double(to_unsigned_8(ctx->pop()))));
}
/* Cannot allocate */
fixnum factor_vm::to_fixnum(cell tagged)
{
switch(TAG(tagged))
{
case FIXNUM_TYPE:
return untag_fixnum(tagged);
case BIGNUM_TYPE:
return bignum_to_fixnum(untag<bignum>(tagged));
default:
type_error(FIXNUM_TYPE,tagged);
return 0; /* can't happen */
}
fixnum factor_vm::to_fixnum(cell tagged) {
switch (TAG(tagged)) {
case FIXNUM_TYPE:
return untag_fixnum(tagged);
case BIGNUM_TYPE:
return bignum_to_fixnum(untag<bignum>(tagged));
default:
type_error(FIXNUM_TYPE, tagged);
return 0; /* can't happen */
}
}
VM_C_API fixnum to_fixnum(cell tagged, factor_vm *parent)
{
return parent->to_fixnum(tagged);
VM_C_API fixnum to_fixnum(cell tagged, factor_vm* parent) {
return parent->to_fixnum(tagged);
}
cell factor_vm::to_cell(cell tagged)
{
return (cell)to_fixnum(tagged);
}
cell factor_vm::to_cell(cell tagged) { return (cell) to_fixnum(tagged); }
VM_C_API cell to_cell(cell tagged, factor_vm *parent)
{
return parent->to_cell(tagged);
VM_C_API cell to_cell(cell tagged, factor_vm* parent) {
return parent->to_cell(tagged);
}
/* Allocates memory */
VM_C_API cell from_signed_cell(fixnum integer, factor_vm *parent)
{
return parent->from_signed_cell(integer);
VM_C_API cell from_signed_cell(fixnum integer, factor_vm* parent) {
return parent->from_signed_cell(integer);
}
/* Allocates memory */
VM_C_API cell from_unsigned_cell(cell integer, factor_vm *parent)
{
return parent->from_unsigned_cell(integer);
VM_C_API cell from_unsigned_cell(cell integer, factor_vm* parent) {
return parent->from_unsigned_cell(integer);
}
/* Allocates memory */
cell factor_vm::from_signed_8(s64 n)
{
if(n < fixnum_min || n > fixnum_max)
return tag<bignum>(long_long_to_bignum(n));
else
return tag_fixnum((fixnum)n);
cell factor_vm::from_signed_8(s64 n) {
if (n < fixnum_min || n > fixnum_max)
return tag<bignum>(long_long_to_bignum(n));
else
return tag_fixnum((fixnum) n);
}
VM_C_API cell from_signed_8(s64 n, factor_vm *parent)
{
return parent->from_signed_8(n);
VM_C_API cell from_signed_8(s64 n, factor_vm* parent) {
return parent->from_signed_8(n);
}
/* Cannot allocate */
s64 factor_vm::to_signed_8(cell obj)
{
switch(tagged<object>(obj).type())
{
case FIXNUM_TYPE:
return untag_fixnum(obj);
case BIGNUM_TYPE:
return bignum_to_long_long(untag<bignum>(obj));
default:
type_error(BIGNUM_TYPE,obj);
return 0;
}
s64 factor_vm::to_signed_8(cell obj) {
switch (tagged<object>(obj).type()) {
case FIXNUM_TYPE:
return untag_fixnum(obj);
case BIGNUM_TYPE:
return bignum_to_long_long(untag<bignum>(obj));
default:
type_error(BIGNUM_TYPE, obj);
return 0;
}
}
VM_C_API s64 to_signed_8(cell obj, factor_vm *parent)
{
return parent->to_signed_8(obj);
VM_C_API s64 to_signed_8(cell obj, factor_vm* parent) {
return parent->to_signed_8(obj);
}
/* Allocates memory */
cell factor_vm::from_unsigned_8(u64 n)
{
if(n > (u64)fixnum_max)
return tag<bignum>(ulong_long_to_bignum(n));
else
return tag_fixnum((fixnum)n);
cell factor_vm::from_unsigned_8(u64 n) {
if (n > (u64) fixnum_max)
return tag<bignum>(ulong_long_to_bignum(n));
else
return tag_fixnum((fixnum) n);
}
VM_C_API cell from_unsigned_8(u64 n, factor_vm *parent)
{
return parent->from_unsigned_8(n);
VM_C_API cell from_unsigned_8(u64 n, factor_vm* parent) {
return parent->from_unsigned_8(n);
}
/* Cannot allocate */
u64 factor_vm::to_unsigned_8(cell obj)
{
switch(tagged<object>(obj).type())
{
case FIXNUM_TYPE:
return untag_fixnum(obj);
case BIGNUM_TYPE:
return bignum_to_ulong_long(untag<bignum>(obj));
default:
type_error(BIGNUM_TYPE,obj);
return 0;
}
u64 factor_vm::to_unsigned_8(cell obj) {
switch (tagged<object>(obj).type()) {
case FIXNUM_TYPE:
return untag_fixnum(obj);
case BIGNUM_TYPE:
return bignum_to_ulong_long(untag<bignum>(obj));
default:
type_error(BIGNUM_TYPE, obj);
return 0;
}
}
VM_C_API u64 to_unsigned_8(cell obj, factor_vm *parent)
{
return parent->to_unsigned_8(obj);
}
/* Cannot allocate */
float factor_vm::to_float(cell value)
{
return (float)untag_float_check(value);
VM_C_API u64 to_unsigned_8(cell obj, factor_vm* parent) {
return parent->to_unsigned_8(obj);
}
/* Cannot allocate */
double factor_vm::to_double(cell value)
{
return untag_float_check(value);
float factor_vm::to_float(cell value) {
return (float) untag_float_check(value);
}
/* Cannot allocate */
double factor_vm::to_double(cell value) { return untag_float_check(value); }
/* The fixnum+, fixnum- and fixnum* primitives are defined in cpu_*.S. On
overflow, they call these functions. */
overflow, they call these functions. */
/* Allocates memory */
inline void factor_vm::overflow_fixnum_add(fixnum x, fixnum y)
{
ctx->replace(tag<bignum>(fixnum_to_bignum(
untag_fixnum(x) + untag_fixnum(y))));
inline void factor_vm::overflow_fixnum_add(fixnum x, fixnum y) {
ctx->replace(
tag<bignum>(fixnum_to_bignum(untag_fixnum(x) + untag_fixnum(y))));
}
VM_C_API void overflow_fixnum_add(fixnum x, fixnum y, factor_vm *parent)
{
parent->overflow_fixnum_add(x,y);
VM_C_API void overflow_fixnum_add(fixnum x, fixnum y, factor_vm* parent) {
parent->overflow_fixnum_add(x, y);
}
/* Allocates memory */
inline void factor_vm::overflow_fixnum_subtract(fixnum x, fixnum y)
{
ctx->replace(tag<bignum>(fixnum_to_bignum(
untag_fixnum(x) - untag_fixnum(y))));
inline void factor_vm::overflow_fixnum_subtract(fixnum x, fixnum y) {
ctx->replace(
tag<bignum>(fixnum_to_bignum(untag_fixnum(x) - untag_fixnum(y))));
}
VM_C_API void overflow_fixnum_subtract(fixnum x, fixnum y, factor_vm *parent)
{
parent->overflow_fixnum_subtract(x,y);
VM_C_API void overflow_fixnum_subtract(fixnum x, fixnum y, factor_vm* parent) {
parent->overflow_fixnum_subtract(x, y);
}
/* Allocates memory */
inline void factor_vm::overflow_fixnum_multiply(fixnum x, fixnum y)
{
bignum *bx = fixnum_to_bignum(x);
GC_BIGNUM(bx);
bignum *by = fixnum_to_bignum(y);
GC_BIGNUM(by);
ctx->replace(tag<bignum>(bignum_multiply(bx,by)));
inline void factor_vm::overflow_fixnum_multiply(fixnum x, fixnum y) {
bignum* bx = fixnum_to_bignum(x);
GC_BIGNUM(bx);
bignum* by = fixnum_to_bignum(y);
GC_BIGNUM(by);
ctx->replace(tag<bignum>(bignum_multiply(bx, by)));
}
VM_C_API void overflow_fixnum_multiply(fixnum x, fixnum y, factor_vm *parent)
{
parent->overflow_fixnum_multiply(x,y);
VM_C_API void overflow_fixnum_multiply(fixnum x, fixnum y, factor_vm* parent) {
parent->overflow_fixnum_multiply(x, y);
}
}

111
vm/math.hpp
View File

@ -1,91 +1,80 @@
namespace factor
{
namespace factor {
static const fixnum fixnum_max = (((fixnum)1 << (WORD_SIZE - TAG_BITS - 1)) - 1);
static const fixnum fixnum_min = (-((fixnum)1 << (WORD_SIZE - TAG_BITS - 1)));
static const fixnum array_size_max = ((cell)1 << (WORD_SIZE - TAG_BITS - 2));
static const fixnum fixnum_max =
(((fixnum) 1 << (WORD_SIZE - TAG_BITS - 1)) - 1);
static const fixnum fixnum_min = (-((fixnum) 1 << (WORD_SIZE - TAG_BITS - 1)));
static const fixnum array_size_max = ((cell) 1 << (WORD_SIZE - TAG_BITS - 2));
/* Allocates memory */
inline cell factor_vm::from_signed_cell(fixnum x)
{
if(x < fixnum_min || x > fixnum_max)
return tag<bignum>(fixnum_to_bignum(x));
else
return tag_fixnum(x);
inline cell factor_vm::from_signed_cell(fixnum x) {
if (x < fixnum_min || x > fixnum_max)
return tag<bignum>(fixnum_to_bignum(x));
else
return tag_fixnum(x);
}
/* Allocates memory */
inline cell factor_vm::from_unsigned_cell(cell x)
{
if(x > (cell)fixnum_max)
return tag<bignum>(cell_to_bignum(x));
else
return tag_fixnum(x);
inline cell factor_vm::from_unsigned_cell(cell x) {
if (x > (cell) fixnum_max)
return tag<bignum>(cell_to_bignum(x));
else
return tag_fixnum(x);
}
/* Allocates memory */
inline cell factor_vm::allot_float(double n)
{
boxed_float *flo = allot<boxed_float>(sizeof(boxed_float));
flo->n = n;
return tag(flo);
inline cell factor_vm::allot_float(double n) {
boxed_float* flo = allot<boxed_float>(sizeof(boxed_float));
flo->n = n;
return tag(flo);
}
/* Allocates memory */
inline bignum *factor_vm::float_to_bignum(cell tagged)
{
return double_to_bignum(untag_float(tagged));
inline bignum* factor_vm::float_to_bignum(cell tagged) {
return double_to_bignum(untag_float(tagged));
}
inline double factor_vm::untag_float(cell tagged)
{
return untag<boxed_float>(tagged)->n;
inline double factor_vm::untag_float(cell tagged) {
return untag<boxed_float>(tagged)->n;
}
inline double factor_vm::untag_float_check(cell tagged)
{
return untag_check<boxed_float>(tagged)->n;
inline double factor_vm::untag_float_check(cell tagged) {
return untag_check<boxed_float>(tagged)->n;
}
inline fixnum factor_vm::float_to_fixnum(cell tagged)
{
return (fixnum)untag_float(tagged);
inline fixnum factor_vm::float_to_fixnum(cell tagged) {
return (fixnum) untag_float(tagged);
}
inline double factor_vm::fixnum_to_float(cell tagged)
{
return (double)untag_fixnum(tagged);
inline double factor_vm::fixnum_to_float(cell tagged) {
return (double) untag_fixnum(tagged);
}
inline cell factor_vm::unbox_array_size()
{
cell obj = ctx->peek();
if(TAG(obj) == FIXNUM_TYPE)
{
fixnum n = untag_fixnum(obj);
if(n >= 0 && n < (fixnum)array_size_max)
{
ctx->pop();
return n;
}
}
inline cell factor_vm::unbox_array_size() {
cell obj = ctx->peek();
if (TAG(obj) == FIXNUM_TYPE) {
fixnum n = untag_fixnum(obj);
if (n >= 0 && n < (fixnum) array_size_max) {
ctx->pop();
return n;
}
}
return unbox_array_size_slow();
return unbox_array_size_slow();
}
VM_C_API cell from_signed_cell(fixnum integer, factor_vm *vm);
VM_C_API cell from_unsigned_cell(cell integer, factor_vm *vm);
VM_C_API cell from_signed_8(s64 n, factor_vm *vm);
VM_C_API cell from_unsigned_8(u64 n, factor_vm *vm);
VM_C_API cell from_signed_cell(fixnum integer, factor_vm* vm);
VM_C_API cell from_unsigned_cell(cell integer, factor_vm* vm);
VM_C_API cell from_signed_8(s64 n, factor_vm* vm);
VM_C_API cell from_unsigned_8(u64 n, factor_vm* vm);
VM_C_API s64 to_signed_8(cell obj, factor_vm *parent);
VM_C_API u64 to_unsigned_8(cell obj, factor_vm *parent);
VM_C_API s64 to_signed_8(cell obj, factor_vm* parent);
VM_C_API u64 to_unsigned_8(cell obj, factor_vm* parent);
VM_C_API fixnum to_fixnum(cell tagged, factor_vm *vm);
VM_C_API cell to_cell(cell tagged, factor_vm *vm);
VM_C_API fixnum to_fixnum(cell tagged, factor_vm* vm);
VM_C_API cell to_cell(cell tagged, factor_vm* vm);
VM_C_API void overflow_fixnum_add(fixnum x, fixnum y, factor_vm *parent);
VM_C_API void overflow_fixnum_subtract(fixnum x, fixnum y, factor_vm *parent);
VM_C_API void overflow_fixnum_multiply(fixnum x, fixnum y, factor_vm *parent);
VM_C_API void overflow_fixnum_add(fixnum x, fixnum y, factor_vm* parent);
VM_C_API void overflow_fixnum_subtract(fixnum x, fixnum y, factor_vm* parent);
VM_C_API void overflow_fixnum_multiply(fixnum x, fixnum y, factor_vm* parent);
}