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mirror of git://projects.qi-hardware.com/fped.git synced 2024-11-25 00:35:20 +02:00
fped/fpd.y
werner de044ca61f We can now generate part families.
- README: added build prerequisites
- "part name" is now more correctly called "package name"
- changed keyword "part" to "package"
- removed inst_debug and struct inst_ops.debug functions - never really used 
  them anyway
- we can now generate multiple packages from a single file



git-svn-id: http://svn.openmoko.org/trunk/eda/fped@5478 99fdad57-331a-0410-800a-d7fa5415bdb3
2009-08-17 20:42:51 +00:00

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%{
/*
* fpd.y - FootPrint Definition language
*
* 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 <stdlib.h>
#include "util.h"
#include "error.h"
#include "expr.h"
#include "obj.h"
#include "meas.h"
#include "fpd.h"
struct expr *expr_result;
const char *var_id;
struct value *var_value_list;
static struct frame *curr_frame;
static struct table *curr_table;
static struct row *curr_row;
static struct frame *last_frame = NULL;
static struct vec *last_vec = NULL;
static struct table **next_table;
static struct loop **next_loop;
static struct vec **next_vec;
static struct obj **next_obj;
static int n_vars, n_values;
static struct frame *find_frame(const char *name)
{
struct frame *f;
for (f = frames; f; f = f->next)
if (f->name == name)
return f;
return NULL;
}
static struct vec *find_vec(const struct frame *frame, const char *name)
{
struct vec *v;
for (v = frame->vecs; v; v = v->next)
if (v->name == name)
return v;
return NULL;
}
static void set_frame(struct frame *frame)
{
curr_frame = frame;
next_table = &frame->tables;
next_loop = &frame->loops;
next_vec = &frame->vecs;
next_obj = &frame->objs;
last_vec = NULL;
}
static void make_var(const char *id, struct expr *expr)
{
struct table *table;
table = zalloc_type(struct table);
table->vars = zalloc_type(struct var);
table->vars->name = id;
table->vars->frame = curr_frame;
table->vars->table = table;
table->rows = zalloc_type(struct row);
table->rows->table = table;
table->rows->values = zalloc_type(struct value);
table->rows->values->expr = expr;
table->rows->values->row = table->rows;
table->active_row = table->rows;
*next_table = table;
next_table = &table->next;
}
static void make_loop(const char *id, struct expr *from, struct expr *to)
{
struct loop *loop;
loop = alloc_type(struct loop);
loop->var.name = id;
loop->var.next = NULL;
loop->var.frame = curr_frame;
loop->var.table = NULL;
loop->from.expr = from;
loop->from.row = NULL;
loop->from.next = NULL;
loop->to.expr = to;
loop->to.row = NULL;
loop->to.next = NULL;
loop->next = NULL;
loop->active = 0;
loop->initialized = 0;
*next_loop = loop;
next_loop = &loop->next;
}
static struct obj *new_obj(enum obj_type type)
{
struct obj *obj;
obj = alloc_type(struct obj);
obj->type = type;
obj->frame = curr_frame;
obj->next = NULL;
return obj;
}
%}
%union {
struct num num;
char *str;
const char *id;
struct expr *expr;
struct frame *frame;
struct table *table;
struct var *var;
struct row *row;
struct value *value;
struct vec *vec;
struct obj *obj;
enum meas_type mt;
struct {
int inverted;
int max;
} mo;
};
%token START_FPD START_EXPR START_VAR START_VALUES
%token TOK_SET TOK_LOOP TOK_PACKAGE TOK_FRAME TOK_TABLE TOK_VEC
%token TOK_PAD TOK_RPAD TOK_RECT TOK_LINE TOK_CIRC TOK_ARC
%token TOK_MEAS TOK_MEASX TOK_MEASY
%token TOK_NEXT TOK_NEXT_INVERTED TOK_MAX TOK_MAX_INVERTED
%token <num> NUMBER
%token <str> STRING
%token <id> ID LABEL
%type <table> table
%type <var> vars var
%type <row> rows
%type <value> row value opt_value_list
%type <vec> vec base qbase
%type <obj> obj meas
%type <expr> expr opt_expr add_expr mult_expr unary_expr primary_expr
%type <str> opt_string
%type <mt> meas_type
%type <mo> meas_op
%%
all:
START_FPD
{
root_frame = zalloc_type(struct frame);
set_frame(root_frame);
}
fpd
{
root_frame->prev = last_frame;
if (last_frame)
last_frame->next = root_frame;
else
frames = root_frame;
}
| START_EXPR expr
{
expr_result = $2;
}
| START_VAR ID opt_value_list
{
var_id = $2;
var_value_list = $3;
}
| START_VALUES row
{
var_value_list = $2;
}
;
fpd:
| frame_defs part_name frame_items
;
part_name:
TOK_PACKAGE STRING
{
const char *p;
if (!*$2) {
yyerrorf("invalid package name");
YYABORT;
}
for (p = $2; *p; *p++)
if (*p < 32 || *p > 126) {
yyerrorf("invalid package name");
YYABORT;
}
pkg_name = $2;
}
;
frame_defs:
| frame_defs frame_def
;
frame_def:
TOK_FRAME ID '{'
{
if (find_frame($2)) {
yyerrorf("duplicate frame \"%s\"", $2);
YYABORT;
}
curr_frame = zalloc_type(struct frame);
curr_frame->name = $2;
set_frame(curr_frame);
curr_frame->prev = last_frame;
if (last_frame)
last_frame->next = curr_frame;
else
frames = curr_frame;
last_frame = curr_frame;
}
frame_items '}'
{
set_frame(root_frame);
}
;
frame_items:
measurements
| frame_item frame_items
;
frame_item:
table
| TOK_SET ID '=' expr
{
make_var($2, $4);
}
| TOK_LOOP ID '=' expr ',' expr
{
make_loop($2, $4, $6);
}
| vec
| LABEL vec
{
if (find_vec(curr_frame, $1)) {
yyerrorf("duplicate vector \"%s\"", $1);
YYABORT;
}
$2->name = $1;
}
| obj
{
*next_obj = $1;
next_obj = &$1->next;
}
;
table:
TOK_TABLE
{
$<table>$ = zalloc_type(struct table);
*next_table = $<table>$;
curr_table = $<table>$;
n_vars = 0;
}
'{' vars '}' rows
{
$$ = $<table>2;
$$->vars = $4;
$$->rows = $6;
$$->active_row = $6;
next_table = &$$->next;
}
;
vars:
var
{
$$ = $1;
}
| vars ',' var
{
struct var **walk;
$$ = $1;
for (walk = &$$; *walk; walk = &(*walk)->next);
*walk = $3;
}
;
var:
ID
{
$$ = zalloc_type(struct var);
$$->name = $1;
$$->frame = curr_frame;
$$->table = curr_table;
$$->next = NULL;
n_vars++;
}
;
rows:
{
$$ = NULL;
}
| '{'
{
$<row>$ = alloc_type(struct row);
$<row>$->table = curr_table;
curr_row = $<row>$;;
n_values = 0;
}
row '}'
{
if (n_vars != n_values) {
yyerrorf("table has %d variables but row has "
"%d values", n_vars, n_values);
YYABORT;
}
$<row>2->values = $3;
}
rows
{
$$ = $<row>2;
$$->next = $6;
}
;
row:
value
{
$$ = $1;
}
| row ',' value
{
struct value **walk;
$$ = $1;
for (walk = &$$; *walk; walk = &(*walk)->next);
*walk = $3;
}
;
value:
expr
{
$$ = alloc_type(struct value);
$$->expr = $1;
$$->row = curr_row;
$$->next = NULL;
n_values++;
}
;
vec:
TOK_VEC base '(' expr ',' expr ')'
{
$$ = alloc_type(struct vec);
$$->name = NULL;
$$->base = $2;
$$->x = $4;
$$->y = $6;
$$->frame = curr_frame;
$$->next = NULL;
last_vec = $$;
*next_vec = $$;
next_vec = &$$->next;
}
;
base:
'@'
{
$$ = NULL;
}
| '.'
{
$$ = last_vec;
if (!$$) {
yyerrorf(". without predecessor");
YYABORT;
}
}
| ID
{
$$ = find_vec(curr_frame, $1);
if (!$$) {
yyerrorf("unknown vector \"%s\"", $1);
YYABORT;
}
}
;
obj:
TOK_PAD STRING base base
{
$$ = new_obj(ot_pad);
$$->base = $3;
$$->u.pad.name = $2;
$$->u.pad.other = $4;
$$->u.pad.rounded = 0;
}
| TOK_RPAD STRING base base
{
$$ = new_obj(ot_pad);
$$->base = $3;
$$->u.pad.name = $2;
$$->u.pad.other = $4;
$$->u.pad.rounded = 1;
}
| TOK_RECT base base opt_expr
{
$$ = new_obj(ot_rect);
$$->base = $2;
$$->u.rect.other = $3;
$$->u.rect.width = $4;
}
| TOK_LINE base base opt_expr
{
$$ = new_obj(ot_line);
$$->base = $2;
$$->u.line.other = $3;
$$->u.line.width = $4;
}
| TOK_CIRC base base opt_expr
{
$$ = new_obj(ot_arc);
$$->base = $2;
$$->u.arc.start = $3;
$$->u.arc.end = $3;
$$->u.arc.width = $4;
}
| TOK_ARC base base base opt_expr
{
$$ = new_obj(ot_arc);
$$->base = $2;
$$->u.arc.start = $3;
$$->u.arc.end = $4;
$$->u.arc.width = $5;
}
| TOK_FRAME ID
{
$<num>$.n = lineno;
}
base
{
$$ = new_obj(ot_frame);
$$->base = $4;
$$->u.frame.ref = find_frame($2);
if (!$$->u.frame.ref) {
yyerrorf("unknown frame \"%s\"", $2);
YYABORT;
}
if (!$$->u.frame.ref->active_ref)
$$->u.frame.ref->active_ref = $$;
$$->u.frame.lineno = $<num>3.n;
}
;
measurements:
| measurements meas
{
*next_obj = $2;
next_obj = &$2->next;
}
;
meas:
meas_type opt_string qbase meas_op qbase opt_expr
{
struct meas *meas;
$$ = new_obj(ot_meas);
meas = &$$->u.meas;
meas->type = $4.max ? $1+3 : $1;
meas->label = $2;
$$->base = $3;
meas->inverted = $4.inverted;
meas->high = $5;
meas->offset = $6;
$$->next = NULL;
}
;
qbase:
ID
{
$$ = find_vec(root_frame, $1);
if (!$$) {
yyerrorf("unknown vector \"%s\"", $1);
YYABORT;
}
}
| ID '.' ID
{
const struct frame *frame;
frame = find_frame($1);
$$ = frame ? find_vec(frame, $3) : NULL;
if (!$$) {
yyerrorf("unknown vector \"%s.%s\"", $1, $3);
YYABORT;
}
}
;
meas_type:
TOK_MEAS
{
$$ = mt_xy_next;
}
| TOK_MEASX
{
$$ = mt_x_next;
}
| TOK_MEASY
{
$$ = mt_y_next;
}
;
meas_op:
TOK_NEXT
{
$$.max = 0;
$$.inverted = 0;
}
| TOK_NEXT_INVERTED
{
$$.max = 0;
$$.inverted = 1;
}
| TOK_MAX
{
$$.max = 1;
$$.inverted = 0;
}
| TOK_MAX_INVERTED
{
$$.max = 1;
$$.inverted = 1;
}
;
opt_string:
{
$$ = NULL;
}
| STRING
{
$$ = $1;
}
;
opt_expr:
{
$$ = NULL;
}
| expr
{
$$ = $1;
}
;
expr:
add_expr
{
$$ = $1;
}
;
add_expr:
mult_expr
{
$$ = $1;
}
| add_expr '+' mult_expr
{
$$ = binary_op(op_add, $1, $3);
}
| add_expr '-' mult_expr
{
$$ = binary_op(op_sub, $1, $3);
}
;
mult_expr:
unary_expr
{
$$ = $1;
}
| mult_expr '*' unary_expr
{
$$ = binary_op(op_mult, $1, $3);
}
| mult_expr '/' unary_expr
{
$$ = binary_op(op_div, $1, $3);
}
;
unary_expr:
primary_expr
{
$$ = $1;
}
| '-' primary_expr
{
$$ = binary_op(op_minus, $2, NULL);
}
;
primary_expr:
NUMBER
{
$$ = new_op(op_num);
$$->u.num = $1;
}
| ID
{
$$ = new_op(op_var);
$$->u.var = $1;
}
| STRING
{
$$ = new_op(op_string);
$$->u.str = $1;
}
| '(' expr ')'
{
$$ = $2;
}
;
/* special sub-grammar */
opt_value_list:
{
$$ = NULL;
}
| '=' row
{
$$ = $2;
}
;