/*
- * Copyright (C) 1995-2007 University of Karlsruhe. All right reserved.
+ * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved.
*
* This file is part of libFirm.
*
*
* @todo Assertions seems to be wrong
*/
-static void _shl(const char *val1, char *buffer, long offset, int radius, unsigned is_signed) {
+static void _shl(const char *val1, char *buffer, long shift_cnt, int bitsize, unsigned is_signed) {
const char *shl;
char shift;
char carry = SC_0;
int counter;
int bitoffset = 0;
- assert((offset >= 0) || (0 && "negative leftshift"));
+ assert((shift_cnt >= 0) || (0 && "negative leftshift"));
assert(((_sign(val1) != -1) || is_signed) || (0 && "unsigned mode and negative value"));
- assert(((!_bitisset(val1[(radius-1)/4], (radius-1)%4)) || !is_signed || (_sign(val1) == -1)) || (0 && "value is positive, should be negative"));
- assert(((_bitisset(val1[(radius-1)/4], (radius-1)%4)) || !is_signed || (_sign(val1) == 1)) || (0 && "value is negative, should be positive"));
+ assert(((!_bitisset(val1[(bitsize-1)/4], (bitsize-1)%4)) || !is_signed || (_sign(val1) == -1)) || (0 && "value is positive, should be negative"));
+ assert(((_bitisset(val1[(bitsize-1)/4], (bitsize-1)%4)) || !is_signed || (_sign(val1) == 1)) || (0 && "value is negative, should be positive"));
/* if shifting far enough the result is zero */
- if (offset >= radius) {
+ if (shift_cnt >= bitsize) {
memset(buffer, SC_0, calc_buffer_size);
return;
}
- shift = shift_table[_val(offset%4)]; /* this is 2 ** (offset % 4) */
- offset = offset / 4;
+ shift = shift_table[_val(shift_cnt%4)]; /* this is 2 ** (offset % 4) */
+ shift_cnt = shift_cnt / 4;
/* shift the single digits some bytes (offset) and some bits (table)
* to the left */
- for (counter = 0; counter < radius/4 - offset; counter++) {
+ for (counter = 0; counter < bitsize/4 - shift_cnt; counter++) {
shl = mul_table[_val(val1[counter])][_val(shift)];
- buffer[counter + offset] = or_table[_val(shl[0])][_val(carry)];
+ buffer[counter + shift_cnt] = or_table[_val(shl[0])][_val(carry)];
carry = shl[1];
}
- if (radius%4 > 0) {
+ if (bitsize%4 > 0) {
shl = mul_table[_val(val1[counter])][_val(shift)];
- buffer[counter + offset] = or_table[_val(shl[0])][_val(carry)];
+ buffer[counter + shift_cnt] = or_table[_val(shl[0])][_val(carry)];
bitoffset = counter;
} else {
bitoffset = counter - 1;
}
/* fill with zeroes */
- for (counter = 0; counter < offset; counter++)
+ for (counter = 0; counter < shift_cnt; counter++)
buffer[counter] = SC_0;
/* if the mode was signed, change sign when the mode's msb is now 1 */
- offset = bitoffset + offset;
- bitoffset = (radius-1) % 4;
- if (is_signed && _bitisset(buffer[offset], bitoffset)) {
+ shift_cnt = bitoffset + shift_cnt;
+ bitoffset = (bitsize-1) % 4;
+ if (is_signed && _bitisset(buffer[shift_cnt], bitoffset)) {
/* this sets the upper bits of the leftmost digit */
- buffer[offset] = or_table[_val(buffer[offset])][_val(min_digit[bitoffset])];
- for (counter = offset+1; counter < calc_buffer_size; counter++) {
+ buffer[shift_cnt] = or_table[_val(buffer[shift_cnt])][_val(min_digit[bitoffset])];
+ for (counter = shift_cnt+1; counter < calc_buffer_size; counter++) {
buffer[counter] = SC_F;
}
- } else if (is_signed && !_bitisset(buffer[offset], bitoffset)) {
+ } else if (is_signed && !_bitisset(buffer[shift_cnt], bitoffset)) {
/* this clears the upper bits of the leftmost digit */
- buffer[offset] = and_table[_val(buffer[offset])][_val(max_digit[bitoffset])];
- for (counter = offset+1; counter < calc_buffer_size; counter++) {
+ buffer[shift_cnt] = and_table[_val(buffer[shift_cnt])][_val(max_digit[bitoffset])];
+ for (counter = shift_cnt+1; counter < calc_buffer_size; counter++) {
buffer[counter] = SC_0;
}
}
* Implements a Shift Right, which can either preserve the sign bit
* or not.
*
+ * @param bitsize bitsize of the value to be shifted
+ *
* @todo Assertions seems to be wrong
*/
-static void _shr(const char *val1, char *buffer, long offset, int radius, unsigned is_signed, int signed_shift) {
+static void _shr(const char *val1, char *buffer, long shift_cnt, int bitsize, unsigned is_signed, int signed_shift) {
const char *shrs;
char sign;
char msd;
- int shift;
+ int shift_mod, shift_nib;
int counter;
int bitoffset = 0;
- assert((offset >= 0) || (0 && "negative rightshift"));
- assert(((!_bitisset(val1[(radius-1)/4], (radius-1)%4)) || !is_signed || (_sign(val1) == -1)) || (0 && "value is positive, should be negative"));
- assert(((_bitisset(val1[(radius-1)/4], (radius-1)%4)) || !is_signed || (_sign(val1) == 1)) || (0 && "value is negative, should be positive"));
+ assert((shift_cnt >= 0) || (0 && "negative rightshift"));
+ assert(((!_bitisset(val1[(bitsize-1)/4], (bitsize-1)%4)) || !is_signed || (_sign(val1) == -1)) || (0 && "value is positive, should be negative"));
+ assert(((_bitisset(val1[(bitsize-1)/4], (bitsize-1)%4)) || !is_signed || (_sign(val1) == 1)) || (0 && "value is negative, should be positive"));
- sign = ((signed_shift) && (_sign(val1) == -1))?(SC_F):(SC_0);
+ sign = signed_shift && _bit(val1, bitsize - 1) ? SC_F : SC_0;
/* if shifting far enough the result is either 0 or -1 */
- if (offset >= radius) {
+ if (shift_cnt >= bitsize) {
if (!sc_is_zero(val1)) {
carry_flag = 1;
}
return;
}
- shift = offset % 4;
- offset = offset / 4;
+ shift_mod = shift_cnt & 3;
+ shift_nib = shift_cnt >> 2;
/* check if any bits are lost, and set carry_flag if so */
- for (counter = 0; counter < offset; counter++) {
+ for (counter = 0; counter < shift_nib; ++counter) {
if (val1[counter] != 0) {
carry_flag = 1;
break;
}
}
- if ((_val(val1[counter]) & ((1<<shift)-1)) != 0) {
+ if ((_val(val1[counter]) & ((1<<shift_mod)-1)) != 0)
carry_flag = 1;
- }
+
/* shift digits to the right with offset, carry and all */
counter = 0;
- if (radius/4 - offset > 0) {
- buffer[counter] = shrs_table[_val(val1[offset])][shift][0];
+ if ((bitsize >> 2) > shift_nib) {
+ buffer[counter] = shrs_table[_val(val1[shift_nib])][shift_mod][0];
counter = 1;
}
- for (; counter < radius/4 - offset; counter++) {
- shrs = shrs_table[_val(val1[counter + offset])][shift];
+ for (; counter < bitsize/4 - shift_nib; counter++) {
+ shrs = shrs_table[_val(val1[counter + shift_nib])][shift_mod];
buffer[counter] = shrs[0];
buffer[counter-1] = or_table[_val(buffer[counter-1])][_val(shrs[1])];
}
/* the last digit is special in regard of signed/unsigned shift */
- bitoffset = radius%4;
- msd = (radius/4<calc_buffer_size)?(val1[radius/4]):(sign); /* most significant digit */
+ bitoffset = bitsize & 3;
+ msd = sign; /* most significant digit */
/* remove sign bits if mode was signed and this is an unsigned shift */
if (!signed_shift && is_signed) {
msd = and_table[_val(msd)][_val(max_digit[bitoffset])];
}
- shrs = shrs_table[_val(msd)][shift];
+ shrs = shrs_table[_val(msd)][shift_mod];
/* signed shift and signed mode and negative value means all bits to the left are set */
- if (signed_shift && is_signed && (_sign(val1) == -1)) {
+ if (signed_shift && sign == SC_F) {
buffer[counter] = or_table[_val(shrs[0])][_val(min_digit[bitoffset])];
} else {
buffer[counter] = shrs[0];
}
- if (counter > 0) buffer[counter - 1] = or_table[_val(buffer[counter-1])][_val(shrs[1])];
+ if (counter > 0)
+ buffer[counter - 1] = or_table[_val(buffer[counter-1])][_val(shrs[1])];
/* fill with SC_F or SC_0 depending on sign */
for (counter++; counter < calc_buffer_size; counter++) {
/**
* Do sign extension if the mode is signed, otherwise to zero extension.
*/
-void sign_extend(char *calc_buffer, ir_mode *mode) {
- int bits = get_mode_size_bits(mode) - 1;
- int nibble = bits >> 2;
- int max = max_digit[bits & 3];
+void sign_extend(void *buffer, ir_mode *mode) {
+ char *calc_buffer = buffer;
+ int bits = get_mode_size_bits(mode) - 1;
+ int nibble = bits >> 2;
+ int max = max_digit[bits & 3];
int i;
if (mode_is_signed(mode)) {
*pos++ = SC_0;
}
+void sc_truncate(unsigned int num_bits, void *buffer) {
+ char *cbuffer = buffer;
+ char *pos = cbuffer + (num_bits / 4);
+ char *end = cbuffer + calc_buffer_size;
+
+ assert(pos < end);
+
+ switch(num_bits % 4) {
+ case 0: /* nothing to do */ break;
+ case 1: *pos = and_table[_val(*pos)][SC_1]; pos++; break;
+ case 2: *pos = and_table[_val(*pos)][SC_3]; pos++; break;
+ case 3: *pos = and_table[_val(*pos)][SC_7]; pos++; break;
+ }
+
+ for( ; pos < end; ++pos)
+ *pos = SC_0;
+}
+
int sc_comp(const void* value1, const void* value2) {
int counter = calc_buffer_size - 1;
const char *val1 = (const char *)value1;
int sc_get_lowest_set_bit(const void *value) {
const char *val = (const char*)value;
int low, counter;
- char sign;
- sign = (_sign(val)==1)?(SC_0):(SC_F);
low = 0;
-
for (counter = 0; counter < calc_buffer_size; counter++) {
- if (val[counter] == SC_0)
+ switch (val[counter]) {
+ case SC_1:
+ case SC_3:
+ case SC_5:
+ case SC_7:
+ case SC_9:
+ case SC_B:
+ case SC_D:
+ case SC_F:
+ return low;
+ case SC_2:
+ case SC_6:
+ case SC_A:
+ case SC_E:
+ return low + 1;
+ case SC_4:
+ case SC_C:
+ return low + 2;
+ case SC_8:
+ return low + 3;
+ default:
low += 4;
- else {
- if (val[counter] < SC_2) return low;
- else if (val[counter] < SC_4) return low + 1;
- else if (val[counter] < SC_8) return low + 2;
- else return low + 3;
}
}
return -1;
unsigned char res;
/* the current scheme uses one byte to store a nibble */
- if (nibble_ofs >= len)
+ if (4 * nibble_ofs >= len)
return 0;
res = _val(val[nibble_ofs]);
- if (len > nibble_ofs + 1)
+ if (len > 4 * (nibble_ofs + 1))
res |= _val(val[nibble_ofs + 1]) << 4;
+ /* kick bits outsize */
+ if (len - 8 * byte_ofs < 8) {
+ res &= (1 << (len - 8 * byte_ofs)) - 1;
+ }
return res;
}
}
void sc_neg(const void *value1, void *buffer) {
- CLEAR_BUFFER(calc_buffer);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("- %s ->", sc_print_hex(value1)));
}
}
+void sc_divmod(const void *value1, const void *value2, void *div_buffer, void *mod_buffer) {
+ CLEAR_BUFFER(calc_buffer);
+ carry_flag = 0;
+
+ DEBUGPRINTF_COMPUTATION(("%s %% ", sc_print_hex(value1)));
+ DEBUGPRINTF_COMPUTATION(("%s -> ", sc_print_hex(value2)));
-void sc_shl(const void *val1, const void *val2, int radius, int sign, void *buffer) {
- long offset = sc_val_to_long(val2);
+ _divmod(value1, value2, div_buffer, mod_buffer);
+ DEBUGPRINTF_COMPUTATION(("%s:%s\n", sc_print_hex(div_buffer), sc_print_hex(mod_buffer)));
+}
+
+
+void sc_shlI(const void *val1, long shift_cnt, int bitsize, int sign, void *buffer) {
carry_flag = 0;
- DEBUGPRINTF_COMPUTATION(("%s << %ld ", sc_print_hex(value1), offset));
- _shl(val1, calc_buffer, offset, radius, sign);
+ DEBUGPRINTF_COMPUTATION(("%s << %ld ", sc_print_hex(value1), shift_cnt));
+ _shl(val1, calc_buffer, shift_cnt, bitsize, sign);
DEBUGPRINTF_COMPUTATION(("-> %s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_shr(const void *val1, const void *val2, int radius, int sign, void *buffer) {
+void sc_shl(const void *val1, const void *val2, int bitsize, int sign, void *buffer) {
long offset = sc_val_to_long(val2);
+ sc_shlI(val1, offset, bitsize, sign, buffer);
+}
+
+void sc_shrI(const void *val1, long shift_cnt, int bitsize, int sign, void *buffer) {
carry_flag = 0;
- DEBUGPRINTF_COMPUTATION(("%s >>u %ld ", sc_print_hex(value1), offset));
- _shr(val1, calc_buffer, offset, radius, sign, 0);
+ DEBUGPRINTF_COMPUTATION(("%s >>u %ld ", sc_print_hex(value1), shift_cnt));
+ _shr(val1, calc_buffer, shift_cnt, bitsize, sign, 0);
DEBUGPRINTF_COMPUTATION(("-> %s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_shrs(const void *val1, const void *val2, int radius, int sign, void *buffer) {
+void sc_shr(const void *val1, const void *val2, int bitsize, int sign, void *buffer) {
+ long shift_cnt = sc_val_to_long(val2);
+
+ sc_shrI(val1, shift_cnt, bitsize, sign, buffer);
+}
+
+void sc_shrs(const void *val1, const void *val2, int bitsize, int sign, void *buffer) {
long offset = sc_val_to_long(val2);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s >>s %ld ", sc_print_hex(value1), offset));
- _shr(val1, calc_buffer, offset, radius, sign, 1);
+ _shr(val1, calc_buffer, offset, bitsize, sign, 1);
DEBUGPRINTF_COMPUTATION(("-> %s\n", sc_print_hex(calc_buffer)));
}
}
-void sc_rot(const void *val1, const void *val2, int radius, int sign, void *buffer) {
+void sc_rot(const void *val1, const void *val2, int bitsize, int sign, void *buffer) {
long offset = sc_val_to_long(val2);
carry_flag = 0;
DEBUGPRINTF_COMPUTATION(("%s <<>> %ld ", sc_print_hex(value1), offset));
- _rot(val1, calc_buffer, offset, radius, sign);
+ _rot(val1, calc_buffer, offset, bitsize, sign);
DEBUGPRINTF_COMPUTATION(("-> %s\n", sc_print_hex(calc_buffer)));
memmove(buffer, calc_buffer, calc_buffer_size);
}
}
+
+void sc_zero(void *buffer) {
+ if (buffer == NULL)
+ buffer = calc_buffer;
+ CLEAR_BUFFER(buffer);
+ carry_flag = 0;
+}