425 lines
9.8 KiB
C
425 lines
9.8 KiB
C
/* $Header$ */
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/* Routines to create type structures */
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#include <alloc.h>
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#include <assert.h>
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#include "idf.h"
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#include "type.h"
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#include "sizes.h"
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#include "symbol.h"
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#include "scope.h"
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#include "langdep.h"
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#include "expr.h"
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p_type int_type, char_type, short_type, long_type, bool_type;
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p_type uint_type, uchar_type, ushort_type, ulong_type;
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p_type void_type;
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p_type float_type, double_type;
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p_type string_type, address_type;
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long int_size = SZ_INT,
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char_size = 1,
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short_size = SZ_SHORT,
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long_size = SZ_LONG,
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pointer_size = SZ_POINTER;
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long float_size = SZ_FLOAT,
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double_size = SZ_DOUBLE;
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struct bounds {
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long low, high;
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};
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static struct bounds ibounds[2] = {
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{ -128, 127 },
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{ -32768, 32767 }
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};
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static struct bounds ubounds[2] = {
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{ 0, 255 },
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{ 0, 65535 }
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};
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static long max_int[8], max_uns[8];
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struct integer_types {
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long maxval;
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p_type type;
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};
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static struct integer_types i_types[4];
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static struct integer_types u_types[4];
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#define ufit(n, nb) Xfit(n, nb, ubounds)
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#define ifit(n, nb) Xfit(n, nb, ibounds)
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#define Xfit(n, nb, b) ((n) >= (b)[(nb)-1].low && (n) <= (b)[(nb)-1].high)
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/* Create a subrange type, but is it really a subrange? */
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p_type
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subrange_type(A, base_index, c1, c2, result_index)
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int *base_index, *result_index;
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long c1, c2;
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{
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int itself = 0;
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register p_type p;
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p_type base_type;
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if (!A) {
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/* Subrange of itself is a special case ... */
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if (result_index &&
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result_index[0] == base_index[0] &&
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result_index[1] == base_index[1]) {
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/* c1 = 0 and c2 = 0 -> void */
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if (c1 == 0 && c2 == 0) {
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return void_type;
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}
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if ((c1 == 0 || c1 == -128) && c2 == 127) {
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return char_type;
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}
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if (c1 == 0 && c2 == 255) {
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return uchar_type;
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}
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itself = 1;
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}
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}
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if (itself) base_type = int_type; else base_type = *(tp_lookup(base_index));
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if (! A) {
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/* c2 = 0 and c1 > 0 -> real */
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if (c2 == 0 && c1 > 0) {
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if (c1 == float_size) return float_type;
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return double_type;
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}
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/* c1 = 0 and base_index indicates int_type or itself -> unsigned,
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c1 = -c2 - 1 and base_index indicates int_type or itself -> integer
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*/
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if (itself || base_type == int_type) {
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register struct integer_types *ip = 0;
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if (c1 == 0) {
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ip = &u_types[0];
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}
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else if (c1 == -c2 - 1) {
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ip = &i_types[0];
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}
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if (ip) {
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while (ip->maxval != 0 && ip->maxval != c2) ip++;
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if (ip->maxval) return ip->type;
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}
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}
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}
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/* if we get here, it actually is a subrange type */
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p = new_type();
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p->ty_class = T_SUBRANGE;
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p->ty_low = c1;
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p->ty_up = c2;
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p->ty_base = base_type;
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p->ty_A = A;
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/* determine size of subrange type */
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p->ty_size = base_type->ty_size;
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if (!A && p->ty_base == uint_type) {
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if (ufit(p->ty_up, 1)) {
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p->ty_size = 1;
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}
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else if (ufit(p->ty_up, (int)short_size)) {
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p->ty_size = short_size;
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}
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}
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if (!A && p->ty_base == int_type) {
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if (ifit(p->ty_up, 1) && ifit(p->ty_low, 1)) {
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p->ty_size = 1;
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}
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else if (ifit(p->ty_up, (int)short_size) &&
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ifit(p->ty_low, (int)short_size)) {
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p->ty_size = short_size;
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}
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}
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return p;
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}
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static long
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nel(tp)
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register p_type tp;
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{
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switch(tp->ty_class) {
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case T_SUBRANGE:
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if (tp->ty_A) return 0;
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if (tp->ty_low <= tp->ty_up) return tp->ty_up - tp->ty_low + 1;
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return tp->ty_low - tp->ty_up + 1;
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case T_UNSIGNED:
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case T_INTEGER:
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if (tp->ty_size == 1) return 256;
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if (tp->ty_size == 2) return 65536L;
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assert(0);
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break;
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case T_ENUM:
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return tp->ty_nenums;
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default:
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assert(0);
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break;
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}
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return 0;
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}
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p_type
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array_type(bound_type, el_type)
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p_type bound_type, el_type;
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{
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register p_type tp = new_type();
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tp->ty_class = T_ARRAY;
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tp->ty_index = bound_type;
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switch(bound_type->ty_class) {
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case T_SUBRANGE:
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if (bound_type->ty_A) break;
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tp->ty_lb = bound_type->ty_low;
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tp->ty_hb = bound_type->ty_up;
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break;
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case T_ENUM:
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tp->ty_lb = 0;
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tp->ty_hb = bound_type->ty_nenums-1;
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break;
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case T_UNSIGNED:
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tp->ty_lb = 0;
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tp->ty_hb = bound_type->ty_size == 1 ? 255 : 65535L;
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break;
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case T_INTEGER:
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tp->ty_lb = bound_type->ty_size == 1 ? -128 : -32768;
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tp->ty_hb = bound_type->ty_size == 1 ? 127 : 32767;
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break;
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}
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tp->ty_elements = el_type;
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tp->ty_size = (*currlang->arrayelsize)(el_type->ty_size) * nel(bound_type);
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return tp;
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}
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p_type
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basic_type(fund, size)
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int fund;
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long size;
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{
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register p_type p = new_type();
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p->ty_class = fund;
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p->ty_size = size;
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return p;
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}
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set_bounds(tp)
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register p_type tp;
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{
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/* Determine the size and low of a set type */
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register p_type base = tp->ty_setbase;
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if (base->ty_class == T_SUBRANGE) {
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tp->ty_size = (base->ty_up - base->ty_low + 7) >> 3;
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tp->ty_setlow = base->ty_low;
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}
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else if (base->ty_class == T_INTEGER) {
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tp->ty_size = (max_int[(int)base->ty_size] + 1) >> 2;
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tp->ty_setlow = -max_int[(int)base->ty_size] - 1;
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}
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else {
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assert(base->ty_class == T_UNSIGNED);
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tp->ty_size = (max_uns[(int)base->ty_size] + 1) >> 3;
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tp->ty_setlow = 0;
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}
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}
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init_types()
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{
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register int i = 0;
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register long x = 0;
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while (x >= 0) {
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i++;
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x = (x << 8) + 0377;
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max_uns[i] = x;
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max_int[i] = x & ~(1L << (8*i - 1));
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}
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int_type = basic_type(T_INTEGER, int_size);
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long_type = basic_type(T_INTEGER, long_size);
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short_type = basic_type(T_INTEGER, short_size);
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char_type = basic_type(T_INTEGER, char_size);
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uint_type = basic_type(T_UNSIGNED, int_size);
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ulong_type = basic_type(T_UNSIGNED, long_size);
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ushort_type = basic_type(T_UNSIGNED, short_size);
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uchar_type = basic_type(T_UNSIGNED, char_size);
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string_type = basic_type(T_STRING, 0L);
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address_type = basic_type(T_POINTER, pointer_size);
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void_type = basic_type(T_VOID, 0L);
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float_type = basic_type(T_REAL, float_size);
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double_type = basic_type(T_REAL, double_size);
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i_types[0].maxval = max_int[(int)int_size]; i_types[0].type = int_type;
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i_types[1].maxval = max_int[(int)short_size]; i_types[1].type = short_type;
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i_types[2].maxval = max_int[(int)long_size]; i_types[2].type = long_type;
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u_types[0].maxval = max_uns[(int)int_size]; u_types[0].type = uint_type;
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u_types[1].maxval = max_uns[(int)short_size]; u_types[1].type = ushort_type;
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u_types[2].maxval = max_uns[(int)long_size]; u_types[2].type = ulong_type;
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}
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/*
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* Some code to handle type indices, which are pairs of integers.
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* What we need is a two-dimensional array, but we don't know how large
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* it is going to be, so we use a list of rows instead.
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*/
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static struct tp_index {
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unsigned len;
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p_type **row;
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} *list_row;
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static unsigned list_len;
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#define NINCR 10
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p_type *
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tp_lookup(type_index)
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int *type_index;
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{
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register int i;
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register struct tp_index *p;
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while (type_index[0] >= list_len) {
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if (list_len) {
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list_row = (struct tp_index *) Realloc((char *) list_row,
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(list_len += NINCR) * sizeof(struct tp_index));
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}
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else list_row = (struct tp_index *)
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Malloc((list_len = NINCR) * sizeof(struct tp_index));
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for (i = NINCR; i > 0; i--) {
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list_row[list_len - i].len = 0;
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}
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}
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p = &list_row[type_index[0]];
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while (type_index[1] >= p->len) {
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int indx = p->len/NINCR;
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if (p->len) {
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p->row = (p_type **) Realloc((char *) p->row,
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(unsigned) (indx + 1) * sizeof(p_type *));
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}
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else p->row = (p_type **) Malloc(sizeof(p_type *));
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p->len += NINCR;
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p->row[indx] = (p_type *) Malloc(NINCR * sizeof(p_type));
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for (i = NINCR-1; i >= 0; i--) {
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p->row[indx][i] = 0;
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}
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}
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return &(p->row[type_index[1]/NINCR][type_index[1]%NINCR]);
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}
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clean_tp_tab()
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{
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if (list_len) {
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register int i = list_len;
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while (--i >= 0) {
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register int j = list_row[i].len;
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if (j) {
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while (--j > 0) {
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p_type p = list_row[i].row[j/NINCR][j%NINCR];
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if (p && p->ty_class == 0) {
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error("%s: incomplete type (%d,%d)",
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listfile->sy_idf->id_text,
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i,
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j);
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}
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}
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j = list_row[i].len;
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while (j > 0) {
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free((char *) list_row[i].row[j/NINCR-1]);
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j -= NINCR;
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}
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free((char *) list_row[i].row);
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}
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}
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free((char *) list_row);
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list_len = 0;
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list_row = 0;
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}
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}
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end_literal(tp, maxval)
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register p_type tp;
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long maxval;
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{
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tp->ty_literals = (struct literal *)
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Realloc((char *) tp->ty_literals,
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tp->ty_nenums * sizeof(struct literal));
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if (ufit(maxval, 1)) tp->ty_size = 1;
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else if (ufit(maxval, (int)short_size)) tp->ty_size = short_size;
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else tp->ty_size = int_size;
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if (! bool_type) bool_type = tp;
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}
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long
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param_size(t, v)
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int v;
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p_type t;
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{
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if (v == 'i' || v == 'v') {
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/* addresss; only exception is a conformant array, which also
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takes a descriptor.
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*/
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if (t->ty_class == T_ARRAY &&
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t->ty_index->ty_class == T_SUBRANGE &&
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t->ty_index->ty_A) {
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return pointer_size + 3 * int_size;
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}
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return pointer_size;
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}
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return ((t->ty_size + int_size - 1) / int_size) * int_size;
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}
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add_param_type(v, s)
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int v; /* 'v' or 'i' for address, 'p' for value */
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p_symbol s; /* parameter itself */
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{
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register p_scope sc = base_scope(s->sy_scope);
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register p_type prc_type;
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if (! sc) return;
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prc_type = sc->sc_definedby->sy_type;
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assert(prc_type->ty_class == T_PROCEDURE);
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prc_type->ty_nparams++;
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prc_type->ty_params = (struct param *) Realloc((char *) prc_type->ty_params,
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(unsigned)prc_type->ty_nparams * sizeof(struct param));
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prc_type->ty_params[prc_type->ty_nparams - 1].par_type = s->sy_type;
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prc_type->ty_params[prc_type->ty_nparams - 1].par_kind = v;
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prc_type->ty_nbparams += param_size(s->sy_type, v);
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}
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/* Compute the size of a parameter of dynamic size
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*/
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long
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compute_size(tp, AB)
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p_type tp;
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char *AB;
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{
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long low, high;
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assert(tp->ty_class == T_ARRAY);
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assert(tp->ty_index->ty_class == T_SUBRANGE);
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assert(tp->ty_index->ty_A != 0);
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if (tp->ty_index->ty_A & 1) {
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low = get_int(AB+tp->ty_index->ty_low, int_size, T_INTEGER);
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} else low = tp->ty_index->ty_low;
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tp->ty_lb = low;
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if (tp->ty_index->ty_A & 2) {
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high = get_int(AB+tp->ty_index->ty_up, int_size, T_INTEGER);
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} else high = tp->ty_index->ty_up;
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tp->ty_hb = high;
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return (high - low + 1) * tp->ty_elements->ty_size;
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}
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