mirror of
git://projects.qi-hardware.com/fped.git
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c9af8cd0fe
using frames to encapsulate building blocks, e.g., like macros or functions in a programming language. Since measurements only know about the frame containing a vector but not the frames containing that frame, invocations of this frame from different places can only be distinguished within the min/next/max scheme. (See the example in README.) To eliminate this limitation, one needs a way to tell fped to consider a point only if it has been instantiated through a certain path, e.g., by requiring some other frames to be visited in its instantiation. This increases the number of distinct points available for measurements. The mechanism chosen is to qualify a measurement point with frames that lead to it. This list of outer frames does not have to include all frames. Without qualifying, the old behaviour results. Note that this doesn't cover all possible ways in which a point can appear in different roles. Multiple frame references can also result from repeating the same frame reference in the same parent frame. The current qualification mechanism does not allow such paths to be distinguished. However, one can always introduce intermediate frames for this purpose. Furthermore, repetitions create multiple instances of a point, although in what should be considered the same role. - fpd.l: make scanner support free-format a little better by switching back to keyword mode after frame braces. This way, one can write a simple frame in a single line, which is useful for regression tests. - fpd.l, fpd.y, README, test/dbg_meas: added %meas directive to print the result of a measurement - fpd.y, README: measurements can now be labeled. Note that, due to limitations of the grammar, the first measurement cannot be labeled. - error.h, error.c (yywarn): new function for non-fatal diagnostics that always get reported to standard error - bitset.h, bitset.c: functions to manipulate variable-size bit sets - meas.h, fpd.y, README, test/meas_qual: added the means to specify qualifiers for points used in measurements - dump.c (print_meas_base, print_meas): dump qualifiers - delete.c (delete_references, test/del_frame): delete measurements that reference a frame being deleted in their qualifiers - obj.h, obj.c (enumerate_frames, instantiate): enumerate all frames so that we have an index into the bit vector of visited frames - meas.h, meas.c (reset_samples, meas_post), obj.c (generate_vecs, generate_frame, instantiate): record the set of frames visited for each sample - meas.c (meas_post): only treat two instances of a point as equivalent if the set of frames visited of one of them is a superset of set of the other. In this case, keep the union of the two sets. - meas.h, meas.c (meas_find_min, meas_find_next, meas_find_max), test/meas_qual: instantiate_meas_pkg only select points for which all frames in the qualification have been visited - gui_meas.c (is_min, is_next, is_max, is_a_next): updated for above change - inst.h, inst.c (curr_frame, propagate_bbox, add_inst, inst_begin_frame, inst_end_frame, inst_start): renamed curr_frame to frame_instantiating to avoid clash with curr_frame in fpd.y - inst.h, inst.c (find_meas_hint): make global - test/structure, test/del_vec, test/del_frame: fped now warns if a measurement is in an unlinked frame. Changed regressions tests to avoid this warning. - test/Common: new function expect_grep to compare only part of the output git-svn-id: http://svn.openmoko.org/trunk/eda/fped@5967 99fdad57-331a-0410-800a-d7fa5415bdb3
524 lines
11 KiB
C
524 lines
11 KiB
C
/*
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* obj.c - Object definition model
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*
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* Written 2009, 2010 by Werner Almesberger
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* Copyright 2009, 2010 by Werner Almesberger
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*/
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#include <stdlib.h>
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#include <string.h>
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#include <assert.h>
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#include "util.h"
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#include "error.h"
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#include "expr.h"
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#include "bitset.h"
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#include "meas.h"
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#include "inst.h"
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#include "hole.h"
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#include "layer.h"
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#include "delete.h"
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#include "obj.h"
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#define DEFAULT_SILK_WIDTH make_mil(15) /* @@@ */
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#define DEFAULT_OFFSET make_mil(0) /* @@@ */
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#define MAX_ITERATIONS 1000 /* abort "loop"s at this limit */
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char *pkg_name = NULL;
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struct frame *frames = NULL;
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struct frame *active_frame = NULL;
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void *instantiation_error = NULL;
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static struct bitset *frame_set; /* frames visited in "call chain" */
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/* ----- Searching --------------------------------------------------------- */
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/*
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* @@@ Known bug: we should compare all parameters of an instance, not just the
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* object's base or the vectors end.
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*/
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static int found = 0;
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static int search_suspended = 0;
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static const struct vec *find_vec = NULL;
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static const struct obj *find_obj = NULL;
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static struct coord find_pos;
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static void suspend_search(void)
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{
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search_suspended++;
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}
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static void resume_search(void)
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{
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assert(search_suspended > 0);
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search_suspended--;
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}
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static struct coord get_pos(const struct inst *inst)
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{
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return inst->obj ? inst->base : inst->u.vec.end;
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}
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void find_inst(const struct inst *inst)
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{
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struct coord pos;
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if (search_suspended)
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return;
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if (find_vec != inst->vec)
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return;
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if (find_obj != inst->obj)
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return;
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pos = get_pos(inst);
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if (pos.x != find_pos.x || pos.y != find_pos.y)
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return;
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found++;
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}
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void search_inst(const struct inst *inst)
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{
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find_vec = inst->vec;
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find_obj = inst->obj;
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find_pos = get_pos(inst);
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}
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/* ----- Get the list of anchors of an object ------------------------------ */
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int obj_anchors(struct obj *obj, struct vec ***anchors)
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{
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anchors[0] = &obj->base;
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switch (obj->type) {
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case ot_frame:
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return 1;
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case ot_rect:
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case ot_line:
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anchors[1] = &obj->u.rect.other;
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return 2;
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case ot_pad:
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anchors[1] = &obj->u.pad.other;
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return 2;
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case ot_hole:
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anchors[1] = &obj->u.hole.other;
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return 2;
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case ot_meas:
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anchors[1] = &obj->u.meas.high;
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return 2;
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case ot_arc:
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/*
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* Put end point first so that this is what we grab if dragging
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* a circle (thereby turning it into an arc).
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*/
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anchors[1] = &obj->u.arc.end;
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anchors[2] = &obj->u.arc.start;
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return 3;
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default:
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abort();
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}
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}
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/* ----- Instantiation ----------------------------------------------------- */
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static int generate_frame(struct frame *frame, struct coord base,
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const struct frame *parent, struct obj *frame_ref, int active);
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struct num eval_unit(const struct expr *expr, const struct frame *frame);
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/*static*/ struct num eval_unit(const struct expr *expr, const struct frame *frame)
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{
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struct num d;
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d = eval_num(expr, frame);
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if (!is_undef(d) && to_unit(&d))
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return d;
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fail_expr(expr);
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return undef;
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}
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static struct num eval_unit_default(const struct expr *expr,
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const struct frame *frame, struct num def)
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{
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if (expr)
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return eval_unit(expr, frame);
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to_unit(&def);
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return def;
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}
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static int generate_vecs(struct frame *frame, struct coord base)
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{
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struct coord vec_base;
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struct vec *vec;
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struct num x, y;
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for (vec = frame->vecs; vec; vec = vec->next) {
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x = eval_unit(vec->x, frame);
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if (is_undef(x))
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goto error;
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y = eval_unit(vec->y, frame);
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if (is_undef(y))
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goto error;
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vec_base = vec->base ? vec->base->pos : base;
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vec->pos = vec_base;
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vec->pos.x += x.n;
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vec->pos.y += y.n;
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if (!inst_vec(vec, vec_base))
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goto error;
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meas_post(vec, vec->pos, frame_set);
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}
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return 1;
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error:
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instantiation_error = vec;
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return 0;
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}
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static int generate_objs(struct frame *frame, struct coord base, int active)
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{
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struct obj *obj;
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char *name;
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int ok;
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struct num width, offset;
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for (obj = frame->objs; obj; obj = obj->next)
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switch (obj->type) {
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case ot_frame:
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if (!generate_frame(obj->u.frame.ref,
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obj->base ? obj->base->pos : base, frame, obj,
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active && obj->u.frame.ref->active_ref == obj))
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return 0;
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break;
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case ot_line:
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width = eval_unit_default(obj->u.line.width, frame,
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DEFAULT_SILK_WIDTH);
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if (is_undef(width))
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goto error;
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if (!inst_line(obj, obj->base ? obj->base->pos : base,
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obj->u.line.other ? obj->u.line.other->pos : base,
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width.n))
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goto error;
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break;
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case ot_rect:
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width = eval_unit_default(obj->u.rect.width, frame,
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DEFAULT_SILK_WIDTH);
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if (is_undef(width))
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goto error;
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if (!inst_rect(obj, obj->base ? obj->base->pos : base,
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obj->u.rect.other ? obj->u.rect.other->pos : base,
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width.n))
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goto error;
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break;
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case ot_pad:
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name = expand(obj->u.pad.name, frame);
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if (!name)
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goto error;
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ok = inst_pad(obj, name,
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obj->base ? obj->base->pos : base,
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obj->u.pad.other ? obj->u.pad.other->pos : base);
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free(name);
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if (!ok)
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goto error;
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break;
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case ot_hole:
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if (!inst_hole(obj, obj->base ? obj->base->pos : base,
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obj->u.hole.other ? obj->u.hole.other->pos : base))
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goto error;
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break;
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case ot_arc:
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width = eval_unit_default(obj->u.arc.width, frame,
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DEFAULT_SILK_WIDTH);
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if (is_undef(width))
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goto error;
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if (!inst_arc(obj, obj->base ? obj->base->pos : base,
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obj->u.arc.start ? obj->u.arc.start->pos : base,
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obj->u.arc.end ? obj->u.arc.end->pos : base,
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width.n))
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goto error;
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break;
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case ot_meas:
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assert(frame == frames);
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offset = eval_unit_default(obj->u.meas.offset, frame,
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DEFAULT_OFFSET);
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if (is_undef(offset))
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goto error;
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inst_meas_hint(obj, offset.n);
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break;
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default:
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abort();
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}
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return 1;
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error:
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instantiation_error = obj;
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return 0;
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}
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static int generate_items(struct frame *frame, struct coord base, int active)
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{
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char *s;
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int ok;
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if (frame == frames) {
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s = expand(pkg_name, frame);
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inst_select_pkg(s);
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free(s);
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}
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inst_begin_active(active && frame == active_frame);
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ok = generate_vecs(frame, base) && generate_objs(frame, base, active);
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inst_end_active();
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return ok;
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}
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static int run_loops(struct frame *frame, struct loop *loop,
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struct coord base, int active)
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{
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struct num from, to;
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int n;
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int found_before, ok;
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if (!loop)
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return generate_items(frame, base, active);
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from = eval_num(loop->from.expr, frame);
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if (is_undef(from)) {
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fail_expr(loop->from.expr);
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instantiation_error = loop;
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return 0;
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}
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if (!is_dimensionless(from)) {
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fail("incompatible type for start value");
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fail_expr(loop->from.expr);
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instantiation_error = loop;
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return 0;
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}
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to = eval_num(loop->to.expr, frame);
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if (is_undef(to)) {
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fail_expr(loop->to.expr);
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instantiation_error = loop;
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return 0;
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}
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if (!is_dimensionless(to)) {
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fail("incompatible type for end value");
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fail_expr(loop->to.expr);
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instantiation_error = loop;
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return 0;
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}
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assert(!loop->initialized);
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loop->curr_value = from.n;
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loop->initialized = 1;
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n = 0;
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for (; loop->curr_value <= to.n; loop->curr_value += 1) {
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if (n >= MAX_ITERATIONS) {
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fail("%s: too many iterations (%d)", loop->var.name,
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MAX_ITERATIONS);
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instantiation_error = loop;
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goto fail;
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}
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found_before = found;
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if (loop->found == loop->active)
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suspend_search();
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ok = run_loops(frame, loop->next, base,
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active && loop->active == n);
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if (loop->found == loop->active)
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resume_search();
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if (!ok)
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goto fail;
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if (found_before != found)
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loop->found = n;
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n++;
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}
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loop->initialized = 0;
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loop->curr_value = UNDEF;
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if (active) {
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loop->n = from.n;
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loop->iterations = n;
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}
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return 1;
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fail:
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loop->initialized = 0;
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return 0;
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}
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static int iterate_tables(struct frame *frame, struct table *table,
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struct coord base, int active)
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{
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int found_before, ok;
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if (!table)
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return run_loops(frame, frame->loops, base, active);
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for (table->curr_row = table->rows; table->curr_row;
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table->curr_row = table->curr_row->next) {
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found_before = found;
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if (table->found_row == table->active_row)
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suspend_search();
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ok = iterate_tables(frame, table->next, base,
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active && table->active_row == table->curr_row);
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if (table->found_row == table->active_row)
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resume_search();
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if (!ok)
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return 0;
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if (found_before != found)
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table->found_row = table->curr_row;
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}
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return 1;
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}
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static int generate_frame(struct frame *frame, struct coord base,
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const struct frame *parent, struct obj *frame_ref, int active)
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{
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int ok;
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/*
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* We ensure during construction that frames can never recurse.
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*/
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inst_begin_frame(frame_ref, frame, base,
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active && parent == active_frame,
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active && frame == active_frame);
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bitset_set(frame_set, frame->n);
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frame->curr_parent = parent;
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ok = iterate_tables(frame, frame->tables, base, active);
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inst_end_frame(frame);
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bitset_clear(frame_set, frame->n);
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frame->curr_parent = NULL;
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return ok;
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}
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static void reset_all_loops(void)
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{
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const struct frame *frame;
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struct loop *loop;
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for (frame = frames; frame; frame = frame->next)
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for (loop = frame->loops; loop; loop = loop->next)
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loop->iterations = 0;
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}
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static void reset_found(void)
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{
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struct frame *frame;
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struct table *table;
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struct loop *loop;
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for (frame = frames; frame; frame = frame->next) {
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for (table = frame->tables; table; table = table->next)
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table->found_row = NULL;
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for (loop = frame->loops; loop; loop = loop->next)
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loop->found = -1;
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frame->found_ref = NULL;
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}
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}
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/*
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* Note: we don't use frame->found_ref yet. Instead, we adjust the frame
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* references with activate_item in inst.c
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*/
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static void activate_found(void)
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{
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struct frame *frame;
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struct table *table;
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struct loop *loop;
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for (frame = frames; frame; frame = frame->next) {
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for (table = frame->tables; table; table = table->next)
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if (table->found_row)
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table->active_row = table->found_row;
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for (loop = frame->loops; loop; loop = loop->next)
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if (loop->found != -1)
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loop->active = loop->found;
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if (frame->found_ref)
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frame->active_ref = frame->found_ref;
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}
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}
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static int enumerate_frames(void)
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{
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struct frame *frame;
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int n = 0;
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for (frame = frames; frame; frame = frame->next)
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frame->n = n++;
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return n;
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}
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int instantiate(void)
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{
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struct coord zero = { 0, 0 };
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int n_frames;
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int ok;
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meas_start();
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inst_start();
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n_frames = enumerate_frames();
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frame_set = bitset_new(n_frames);
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instantiation_error = NULL;
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reset_all_loops();
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reset_found();
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found = 0;
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search_suspended = 0;
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ok = generate_frame(frames, zero, NULL, NULL, 1);
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if (ok && (find_vec || find_obj) && found)
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activate_found();
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find_vec = NULL;
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find_obj = NULL;
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if (ok)
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ok = link_holes();
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if (ok)
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ok = refine_layers();
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if (ok)
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ok = instantiate_meas(n_frames);
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if (ok)
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inst_commit();
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else
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inst_revert();
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bitset_free(frame_set);
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return ok;
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}
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/* ----- deallocation ------------------------------------------------------ */
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void obj_cleanup(void)
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{
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free(pkg_name);
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while (frames) {
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delete_frame(frames);
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destroy();
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|
}
|
|
}
|