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https://github.com/uffejakobsen/acme.git
synced 2024-11-25 23:49:25 +00:00
renamed struct component, no change in functionality
git-svn-id: https://svn.code.sf.net/p/acme-crossass/code-0/trunk@397 4df02467-bbd4-4a76-a152-e7ce94205b78
This commit is contained in:
parent
3b2321c053
commit
3c390cbde7
56
src/output.c
56
src/output.c
@ -38,7 +38,7 @@ struct output {
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intval_t max; // highest address segment may use
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intval_t max; // highest address segment may use
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bits flags; // segment flags ("overlay" and "invisible", see header file)
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bits flags; // segment flags ("overlay" and "invisible", see header file)
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struct segment list_head; // head element of doubly-linked ring list
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struct segment list_head; // head element of doubly-linked ring list
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} segment; // FIXME - rename either this component or "struct segment"!
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} segm;
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char xor; // output modifier
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char xor; // output modifier
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};
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};
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@ -74,19 +74,19 @@ static void report_binary(char value)
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// just find the next segment start and subtract 1.
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// just find the next segment start and subtract 1.
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static void find_segment_max(intval_t new_pc)
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static void find_segment_max(intval_t new_pc)
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{
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{
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struct segment *test_segment = out->segment.list_head.next;
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struct segment *test_segment = out->segm.list_head.next;
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// search for smallest segment start address that
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// search for smallest segment start address that
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// is larger than given address
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// is larger than given address
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// use list head as sentinel
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// use list head as sentinel
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// FIXME - if +1 overflows intval_t, we have an infinite loop!
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// FIXME - if +1 overflows intval_t, we have an infinite loop!
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out->segment.list_head.start = new_pc + 1;
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out->segm.list_head.start = new_pc + 1;
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while (test_segment->start <= new_pc)
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while (test_segment->start <= new_pc)
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test_segment = test_segment->next;
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test_segment = test_segment->next;
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if (test_segment == &out->segment.list_head)
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if (test_segment == &out->segm.list_head)
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out->segment.max = config.outbuf_size - 1;
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out->segm.max = config.outbuf_size - 1;
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else
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else
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out->segment.max = test_segment->start - 1; // last free address available
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out->segm.max = test_segment->start - 1; // last free address available
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}
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}
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@ -115,7 +115,7 @@ static void real_output(intval_t byte)
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// CAUTION - there are two copies of these checks!
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// CAUTION - there are two copies of these checks!
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// TODO - add additional check for current segment's "limit" value
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// TODO - add additional check for current segment's "limit" value
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// did we reach next segment?
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// did we reach next segment?
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if (out->write_idx > out->segment.max)
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if (out->write_idx > out->segm.max)
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border_crossed(out->write_idx);
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border_crossed(out->write_idx);
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// new minimum address?
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// new minimum address?
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if (out->write_idx < out->lowest_written)
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if (out->write_idx < out->lowest_written)
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@ -162,7 +162,7 @@ void output_skip(int size)
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// CAUTION - there are two copies of these checks!
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// CAUTION - there are two copies of these checks!
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// TODO - add additional check for current segment's "limit" value
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// TODO - add additional check for current segment's "limit" value
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// did we reach next segment?
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// did we reach next segment?
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if (out->write_idx + size - 1 > out->segment.max)
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if (out->write_idx + size - 1 > out->segm.max)
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border_crossed(out->write_idx + size - 1);
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border_crossed(out->write_idx + size - 1);
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// new minimum address?
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// new minimum address?
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if (out->write_idx < out->lowest_written)
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if (out->write_idx < out->lowest_written)
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@ -238,8 +238,8 @@ void output_createbuffer(void)
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fill_completely(config.mem_init_value & 0xff);
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fill_completely(config.mem_init_value & 0xff);
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}
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}
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// init ring list of segments
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// init ring list of segments
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out->segment.list_head.next = &out->segment.list_head;
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out->segm.list_head.next = &out->segm.list_head;
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out->segment.list_head.prev = &out->segment.list_head;
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out->segm.list_head.prev = &out->segm.list_head;
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}
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}
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@ -247,15 +247,15 @@ void output_createbuffer(void)
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static void link_segment(intval_t start, intval_t length)
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static void link_segment(intval_t start, intval_t length)
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{
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{
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struct segment *new_segment,
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struct segment *new_segment,
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*test_segment = out->segment.list_head.next;
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*test_segment = out->segm.list_head.next;
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// init new segment
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// init new segment
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new_segment = safe_malloc(sizeof(*new_segment));
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new_segment = safe_malloc(sizeof(*new_segment));
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new_segment->start = start;
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new_segment->start = start;
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new_segment->length = length;
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new_segment->length = length;
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// use ring head as sentinel
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// use ring head as sentinel
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out->segment.list_head.start = start;
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out->segm.list_head.start = start;
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out->segment.list_head.length = length + 1; // +1 to make sure sentinel exits loop
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out->segm.list_head.length = length + 1; // +1 to make sure sentinel exits loop
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// walk ring to find correct spot
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// walk ring to find correct spot
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while ((test_segment->start < new_segment->start)
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while ((test_segment->start < new_segment->start)
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|| ((test_segment->start == new_segment->start) && (test_segment->length < new_segment->length)))
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|| ((test_segment->start == new_segment->start) && (test_segment->length < new_segment->length)))
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@ -273,11 +273,11 @@ static void link_segment(intval_t start, intval_t length)
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// FIXME - do it the other way round and only complain if there were no other errors!
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// FIXME - do it the other way round and only complain if there were no other errors!
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static void check_segment(intval_t new_pc)
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static void check_segment(intval_t new_pc)
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{
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{
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struct segment *test_segment = out->segment.list_head.next;
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struct segment *test_segment = out->segm.list_head.next;
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// use list head as sentinel
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// use list head as sentinel
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out->segment.list_head.start = new_pc + 1; // +1 to make sure sentinel exits loop
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out->segm.list_head.start = new_pc + 1; // +1 to make sure sentinel exits loop
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out->segment.list_head.length = 1;
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out->segm.list_head.length = 1;
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// search ring for matching entry
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// search ring for matching entry
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while (test_segment->start <= new_pc) {
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while (test_segment->start <= new_pc) {
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if ((test_segment->start + test_segment->length) > new_pc) {
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if ((test_segment->start + test_segment->length) > new_pc) {
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@ -311,9 +311,9 @@ void output_passinit(void)
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// deactivate output - any byte written will trigger error:
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// deactivate output - any byte written will trigger error:
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output_byte = no_output;
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output_byte = no_output;
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out->write_idx = 0; // same as pc on pass init!
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out->write_idx = 0; // same as pc on pass init!
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out->segment.start = NO_SEGMENT_START; // TODO - "no active segment" could be made a segment flag!
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out->segm.start = NO_SEGMENT_START; // TODO - "no active segment" could be made a segment flag!
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out->segment.max = config.outbuf_size - 1; // TODO - use end of bank?
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out->segm.max = config.outbuf_size - 1; // TODO - use end of bank?
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out->segment.flags = 0;
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out->segm.flags = 0;
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out->xor = 0;
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out->xor = 0;
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//vcpu stuff:
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//vcpu stuff:
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@ -350,26 +350,26 @@ static void end_segment(void)
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return;
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return;
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// if there is no segment, there is nothing to do
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// if there is no segment, there is nothing to do
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if (out->segment.start == NO_SEGMENT_START)
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if (out->segm.start == NO_SEGMENT_START)
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return;
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return;
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// ignore "invisible" segments
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// ignore "invisible" segments
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if (out->segment.flags & SEGMENT_FLAG_INVISIBLE)
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if (out->segm.flags & SEGMENT_FLAG_INVISIBLE)
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return;
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return;
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// ignore empty segments
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// ignore empty segments
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amount = out->write_idx - out->segment.start;
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amount = out->write_idx - out->segm.start;
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if (amount == 0)
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if (amount == 0)
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return;
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return;
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// link to segment list
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// link to segment list
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link_segment(out->segment.start, amount);
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link_segment(out->segm.start, amount);
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// announce
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// announce
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if (config.process_verbosity >= 2)
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if (config.process_verbosity >= 2)
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// TODO - change output to start, limit, size, name:
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// TODO - change output to start, limit, size, name:
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// TODO - output hex numbers as %04x? What about limit 0x10000?
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// TODO - output hex numbers as %04x? What about limit 0x10000?
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printf("Segment size is %d (0x%x) bytes (0x%x - 0x%x exclusive).\n",
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printf("Segment size is %d (0x%x) bytes (0x%x - 0x%x exclusive).\n",
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amount, amount, out->segment.start, out->write_idx);
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amount, amount, out->segm.start, out->write_idx);
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}
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}
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@ -390,15 +390,15 @@ static void start_segment(intval_t address_change, bits segment_flags)
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// calculate start of new segment
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// calculate start of new segment
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out->write_idx = (out->write_idx + address_change) & (config.outbuf_size - 1);
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out->write_idx = (out->write_idx + address_change) & (config.outbuf_size - 1);
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out->segment.start = out->write_idx;
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out->segm.start = out->write_idx;
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out->segment.flags = segment_flags;
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out->segm.flags = segment_flags;
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// allow writing to output buffer
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// allow writing to output buffer
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output_byte = real_output;
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output_byte = real_output;
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// in first/last pass, check for other segments and maybe issue warning
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// in first/last pass, check for other segments and maybe issue warning
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if (pass.flags.do_segment_checks) {
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if (pass.flags.do_segment_checks) {
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if (!(segment_flags & SEGMENT_FLAG_OVERLAY))
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if (!(segment_flags & SEGMENT_FLAG_OVERLAY))
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check_segment(out->segment.start);
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check_segment(out->segm.start);
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find_segment_max(out->segment.start);
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find_segment_max(out->segm.start);
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}
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}
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}
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}
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