/* * obj.c - Object definition model * * Written 2009 by Werner Almesberger * Copyright 2009 by Werner Almesberger * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. */ #include #include #include #include "util.h" #include "error.h" #include "expr.h" #include "meas.h" #include "inst.h" #include "obj.h" #define DEFAULT_SILK_WIDTH make_mil(15) /* @@@ */ #define MAX_ITERATIONS 1000 /* abort "loop"s at this limit */ char *part_name = NULL; struct frame *frames = NULL; struct frame *root_frame = NULL; struct frame *active_frame = NULL; int instantiation_ok; static int generate_frame(struct frame *frame, struct coord base, const struct frame *parent, struct obj *frame_ref, int active); struct num eval_unit(const struct expr *expr, const struct frame *frame); /*static*/ struct num eval_unit(const struct expr *expr, const struct frame *frame) { struct num d; d = eval_num(expr, frame); if (!is_undef(d) && to_unit(&d)) return d; fail_expr(expr); return undef; } static struct num eval_unit_default(const struct expr *expr, const struct frame *frame, struct num def) { if (expr) return eval_unit(expr, frame); to_unit(&def); return def; } static int generate_vecs(struct frame *frame, struct coord base) { struct coord vec_base; struct vec *vec; struct num x, y; for (vec = frame->vecs; vec; vec = vec->next) { x = eval_unit(vec->x, frame); if (is_undef(x)) return 0; y = eval_unit(vec->y, frame); if (is_undef(y)) return 0; vec_base = vec->base ? vec->base->pos : base; vec->pos = vec_base; vec->pos.x += x.n; vec->pos.y += y.n; if (!inst_vec(vec, vec_base)) return 0; meas_post(vec, vec->pos); } return 1; } static int generate_objs(struct frame *frame, struct coord base, int active) { struct obj *obj; char *name; int ok; struct num width; for (obj = frame->objs; obj; obj = obj->next) switch (obj->type) { case ot_frame: if (!generate_frame(obj->u.frame.ref, obj->base ? obj->base->pos : base, frame, obj, active && obj->u.frame.ref->active_ref == obj)) return 0; break; case ot_line: width = eval_unit_default(obj->u.line.width, frame, DEFAULT_SILK_WIDTH); if (is_undef(width)) return 0; if (!inst_line(obj, obj->base ? obj->base->pos : base, obj->u.line.other ? obj->u.line.other->pos : base, width.n)) return 0; break; case ot_rect: width = eval_unit_default(obj->u.rect.width, frame, DEFAULT_SILK_WIDTH); if (is_undef(width)) return 0; if (!inst_rect(obj, obj->base ? obj->base->pos : base, obj->u.rect.other ? obj->u.rect.other->pos : base, width.n)) return 0; break; case ot_pad: name = expand(obj->u.pad.name, frame); if (!name) return 0; ok = inst_pad(obj, name, obj->base ? obj->base->pos : base, obj->u.pad.other ? obj->u.pad.other->pos : base); free(name); if (!ok) return 0; break; case ot_arc: width = eval_unit_default(obj->u.arc.width, frame, DEFAULT_SILK_WIDTH); if (is_undef(width)) return 0; if (!inst_arc(obj, obj->base ? obj->base->pos : base, obj->u.arc.start ? obj->u.arc.start->pos : base, obj->u.arc.end ? obj->u.arc.end->pos : base, width.n)) return 0; break; case ot_meas: break; default: abort(); } return 1; } static int generate_items(struct frame *frame, struct coord base, int active) { int ok; inst_begin_active(active && frame == active_frame); ok = generate_vecs(frame, base) && generate_objs(frame, base, active); inst_end_active(); return ok; } static int run_loops(struct frame *frame, struct loop *loop, struct coord base, int active) { struct num from, to; int n; if (!loop) return generate_items(frame, base, active); from = eval_num(loop->from.expr, frame); if (is_undef(from)) { fail_expr(loop->from.expr); return 0; } if (!is_dimensionless(from)) { fail("incompatible type for start value"); fail_expr(loop->from.expr); return 0; } to = eval_num(loop->to.expr, frame); if (is_undef(to)) { fail_expr(loop->to.expr); return 0; } if (!is_dimensionless(to)) { fail("incompatible type for end value"); fail_expr(loop->to.expr); return 0; } assert(!loop->initialized); loop->curr_value = from.n; loop->initialized = 1; n = 0; for (; loop->curr_value <= to.n; loop->curr_value += 1) { if (n >= MAX_ITERATIONS) { fail("%s: too many iterations (%d)", loop->var.name, MAX_ITERATIONS); goto fail; } if (!run_loops(frame, loop->next, base, active && loop->active == n)) goto fail; n++; } loop->initialized = 0; loop->iterations = n; return 1; fail: loop->initialized = 0; return 0; } static int iterate_tables(struct frame *frame, struct table *table, struct coord base, int active) { if (!table) return run_loops(frame, frame->loops, base, active); for (table->curr_row = table->rows; table->curr_row; table->curr_row = table->curr_row->next) if (!iterate_tables(frame, table->next, base, active && table->active_row == table->curr_row)) return 0; return 1; } static int generate_frame(struct frame *frame, struct coord base, const struct frame *parent, struct obj *frame_ref, int active) { int ok; /* * We ensure during construction that frames can never recurse. */ inst_begin_frame(frame_ref, frame, base, active && parent == active_frame, active && frame == active_frame); frame->curr_parent = parent; ok = iterate_tables(frame, frame->tables, base, active); inst_end_frame(frame); return ok; } int instantiate(void) { struct coord zero = { 0, 0 }; int ok; inst_start(); meas_start(); ok = generate_frame(root_frame, zero, NULL, NULL, 1); if (ok) ok = instantiate_meas(); if (ok) inst_commit(); else inst_revert(); instantiation_ok = ok; return ok; }