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hfm.c
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hfm.c
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/* File: hfm.c
*
* Hierarchical feature maps in DISCERN
*
* Copyright (C) 1994 Risto Miikkulainen
*
* This software can be copied, modified and distributed freely for
* educational and research purposes, provided that this notice is included
* in the code, and the author is acknowledged in any materials and reports
* that result from its use. It may not be used for commercial purposes
* without expressed permission from the author.
*
* $Id: hfm.c,v 1.37 1994/09/20 10:46:59 risto Exp $
*/
#include <stdio.h>
#include <math.h>
#include <X11/Intrinsic.h>
#include <X11/StringDefs.h>
#include "defs.h"
#include "globals.c"
/************ hfm constants *************/
/* keywords expected in hfmsimu */
#define HFMSIMU_WEIGHTS "network-weights"/* weights in hfmsimu */
#define HFMSIMU_INDICES "input-indices" /* compression indices in hfmsimu */
#define HFMSIMU_NTOPNET "topmapsize" /* top-level map size in hfmsimu */
#define HFMSIMU_NMIDNET "midmapsize" /* middle-level map size */
#define HFMSIMU_NBOTNET "botmapsize" /* bottom-level map size */
/******************** Function prototypes ************************/
/* global functions */
#include "prototypes.h"
/* functions local to this file */
static void classify_and_store __P ((int modi, IMAGEDATA *image));
static void classify_and_retrieve __P ((int modi, IMAGEDATA *image));
static void top_responses __P ((int modi, double *best, double *worst,
IMAGEDATA *image));
static void middle_responses __P ((int modi, double *best, double *worst,
IMAGEDATA *image));
static void bottom_responses __P ((int modi, double *best, double *worst,
IMAGEDATA *image));
static void form_inprep_targets __P ((int modi, int slots[]));
static void form_outrep __P ((int modi, IMAGEDATA image));
static void bottom_retrieve __P ((int modi, int topi, int topj,
int midi, int midj, IMAGEDATA *searchimage));
static void hfm_iterate_weights __P((void (*dofun) (FILE *, double *,
double, double),
FILE *fp, double par1, double par2));
/********************* memory classification ***************************/
void
presentmem (taski, modi, slots, bestvalue)
/* present a story rep vector to the memory, find the image units,
and either store the vector or retrieve the stored pattern */
int taski; /* para or qa */
int modi; /* store or retrieve */
int slots[]; /* target indices */
double *bestvalue; /* activation of max resp unit */
{
IMAGEDATA image; /* image unit indices & value */
int i;
/* we don't allow mouse events during propagation */
nohfmmouseevents = TRUE;
/* either get the input vector from sentpars or cueformer output,
or if the modules are not chained, form it from the targets */
form_inprep_targets (modi, slots);
/* store the story representation in the memory */
if (modi == STOREMOD)
/* find the image units and store the trace at the bottom map */
classify_and_store (STOREMOD, &image);
/* retrieve the trace using input vector as a cue */
else if (modi == RETMOD)
classify_and_retrieve (RETMOD, &image);
/* form the outputvector from the weights of the image units */
form_outrep (modi, image);
/* collect accuracy statistics unless the retrieval was unsuccessful */
if (!(modi == RETMOD && image.value < aliveact))
collect_stats (taski, modi);
/* allow mouse events again */
nohfmmouseevents = FALSE;
/* display the log line */
if (displaying)
{
display_hfm_error (modi, image);
wait_and_handle_events (); /* stop if stepping, check for events */
}
/* if modules are in a chain, establish the result to be used
for the answerprod or storygen */
if (chain)
for (i = 0; i < nslotrep; i++)
slotrep[i] = outrep[modi][i];
*bestvalue=image.value;
}
static void
classify_and_store (modi, image)
/* find the image units at the three levels and store the trace
at the bottom level map */
int modi; /* module number: store or retrieve */
IMAGEDATA *image; /* image unit indices & value */
{
/* find the image units at the three levels */
classify (modi, image);
/* create a trace on the appropriate trace map */
store_trace (*image,
botunits[image->topi][image->topj][image->midi][image->midj],
latweights[image->topi][image->topj][image->midi][image->midj],
nbotindices[image->topi][image->topj][image->midi][image->midj],
botindices[image->topi][image->topj][image->midi][image->midj]);
}
void
classify (modi, image)
/* find the image units at the three levels
(needs to be a separate routine for determining the labels) */
int modi; /* module number: store or retrieve */
IMAGEDATA *image; /* image unit indices & value */
{
double foo1, foo2; /* best and worst response (not used) */
printcomment ("\n", "storing into episodic memory:", "");
/* clear and display the hfm system */
if (displaying)
{
hfm_clear_values (); /* update prevvalues, clear values */
display_hfm_values (); /* display the cleared values */
/* (those that weren't clear already, i.e.
differ from prevvalues) */
}
/* compute responses of the top-level units, display them,
and find indices of the image unit and return them in image */
top_responses (modi, &foo1, &foo2, image);
/* compute responses of the middle-level units in the winning map
and find indices of the image unit and return them in image */
middle_responses (modi, &foo1, &foo2, image);
/* compute responses of the bottom-level units in the winning map
and find indices of the image unit and return them in image */
bottom_responses (modi, &foo1, &foo2, image);
}
static void
classify_and_retrieve (modi, image)
/* look for the appropriate trace under all maps that are close enough
to the cue vector, return the indices to the best one and the
trace activation in image */
int modi; /* module number: store or retrieve */
IMAGEDATA *image; /* image unit indices & value */
{
int topi, topj, midi, midj; /* indices for the top and middle maps */
double topbest, topworst; /* max and min responding top-level units */
double midbest, midworst; /* max and min responding mid-level units */
IMAGEDATA searchimage; /* image during search in the different maps */
/* start with an impossibly weak best activation */
searchimage.value = (-2.0);
printcomment ("\n", "retrieving from episodic memory:", "");
/* first clear the map activations */
hfm_clear_values ();
if (displaying)
display_hfm_values ();
/* compute responses of the top-level units, display them,
and find best and worst response values (indices not used) */
top_responses (modi, &topbest, &topworst, image);
/* look for traces under all top-level units that have activation
larger than topsearch threshold and have lines to their middle map */
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
if (topworst - (topworst - topbest) * topunits[topi][topj].value
< topsearch && nmidindices[topi][topj] > 0)
{
/* compute responses of the middle-level map i, j
and find best and worst response values (indices not used) */
middle_responses (modi, &midbest, &midworst, image);
/* look for traces under all mid-level units midi, midj of map i, j,
that have activation larger than midsearch threshold
and have lines to their bottom-level map */
for (midi = 0; midi < nmidnet; midi++)
for (midj = 0; midj < nmidnet; midj++)
if (midworst - (midworst - midbest) *
midunits[topi][topj][midi][midj].value
< midsearch && nbotindices[topi][topj][midi][midj] > 0)
/* try to retrieve a trace from map [topi][topj][midi][midj] */
/* if the trace value is better, return indices and
activation in searchimage */
bottom_retrieve (modi, topi, topj, midi, midj, &searchimage);
}
/* make the best value found in the above search global */
*image = searchimage;
}
/********************** map responses **************************/
static void
top_responses (modi, best, worst, image)
/* compute responses of the top-level units
and find max and min responding units, returning their values
in best and worst, and best indices in image */
int modi; /* module number: store or retrieve */
double *best, *worst; /* best and worst response found so far */
IMAGEDATA *image; /* image unit indices & value */
{
int topi, topj; /* map indices */
/* first initialize the current best and worst values */
*best = LARGEFLOAT;
*worst = (-1.0);
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
{
/* response proportional to the distance of weight and input vectors */
distanceresponse (&topunits[topi][topj], inprep[modi],
ninprep[modi], distance, NULL);
/* find best and worst activations and best indices */
updatebestworst (best, worst, &image->topi, &image->topj,
&topunits[topi][topj],
topi, topj, fsmaller, fgreater);
}
/* scale the responses linearly between 1.0 (best) and 0.0 (worst) */
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
topunits[topi][topj].value =
(*worst - topunits[topi][topj].value) / (*worst - *best);
/* display the responses of the top-level map */
if (displaying)
{
display_hfm_top ();
wait_and_handle_events (); /* stop if stepping, check for events */
}
}
static void
middle_responses (modi, best, worst, image)
/* compute responses of the units in the winning middle-level map
and find max and min responding units, returning their values
in best and worst, and best indices in image */
int modi; /* module number: store or retrieve */
double *best, *worst; /* best and worst response found so far */
IMAGEDATA *image; /* image unit indices & value */
{
int midi, midj; /* map indices */
/* first initialize the current best and worst values */
*best = LARGEFLOAT;
*worst = (-1.0);
for (midi = 0; midi < nmidnet; midi++)
for (midj = 0; midj < nmidnet; midj++)
{
/* response proportional to the distance of weight and input vectors */
distanceresponse (&midunits[image->topi][image->topj][midi][midj],
inprep[modi],
nmidindices[image->topi][image->topj], seldistance,
midindices[image->topi][image->topj]);
/* find best and worst activations and best indices */
updatebestworst (best, worst, &image->midi, &image->midj,
&midunits[image->topi][image->topj][midi][midj],
midi, midj,
fsmaller, fgreater);
}
/* scale the responses linearly between 1.0 (best) and 0.0 (worst) */
for (midi = 0; midi < nmidnet; midi++)
for (midj = 0; midj < nmidnet; midj++)
midunits[image->topi][image->topj][midi][midj].value =
(*worst - midunits[image->topi][image->topj][midi][midj].value) /
(*worst - *best);
/* display the responses for the middle-level map */
if (displaying)
{
display_hfm_mid (image->topi, image->topj);
wait_and_handle_events (); /* stop if stepping, check for events */
}
}
static void
bottom_responses (modi, best, foo, image)
/* compute responses of the units in the winning bottom-level map
and find max and min responding units, returning the value of the
max in best, and best indices in image */
int modi; /* module number: store or retrieve */
double *best, *foo; /* best and worst response (not used) */
IMAGEDATA *image; /* image unit indices & value */
{
int boti, botj; /* map indices */
/* first initialize the current best and worst values */
*best = LARGEFLOAT;
*foo = LARGEFLOAT;
for (boti = 0; boti < nbotnet; boti++)
for (botj = 0; botj < nbotnet; botj++)
{
/* response proportional to the distance of weight and input vectors */
distanceresponse (&botunits[image->topi][image->topj]
[image->midi][image->midj]
[boti][botj],
inprep[modi],
nbotindices[image->topi][image->topj]
[image->midi][image->midj],
seldistance,
botindices[image->topi][image->topj]
[image->midi][image->midj]);
/* find best and worst activations and best indices */
updatebestworst (best, foo, &image->boti, &image->botj,
&botunits[image->topi][image->topj]
[image->midi][image->midj]
[boti][botj],
boti, botj,
fsmaller, fgreater);
}
/* the bottom-level values will be scaled and displayed with the trace */
}
static void
bottom_retrieve (modi, topi, topj, midi, midj, searchimage)
/* try to retrieve a trace from the map [topi][topj][midi][midj]; if its value
is larger than best value found so far, return its value and indices */
int modi; /* module number: store or retrieve */
int topi, topj, midi, midj; /* map indices */
IMAGEDATA *searchimage; /* trace return indices and value */
{
int boti, botj; /* return indices of the trace */
double value; /* return trace value */
char s[MAXSTRL + 1];
/* print out which map is currently under consideration */
sprintf (s, "\n%smap (%d,%d), (%d,%d):",
BEGIN_COMMENT, topi, topj, midi, midj);
if (babbling)
printf ("%s", s);
/* find a trace in map [topi][topj][midi][midj], returning its value
in value and indices in boti and botj */
retrieve_trace (topi, topj, midi, midj, &boti, &botj, &value,
botunits[topi][topj][midi][midj],
latweights[topi][topj][midi][midj],
nbotindices[topi][topj][midi][midj],
botindices[topi][topj][midi][midj],
inprep[modi]);
/* close the log output after retrieve result (printed under trace) */
if (babbling)
printf ("%s", END_COMMENT);
/* if this trace has a better value than the best trace so far
(searchimage->value), return its indices and value */
if (value > searchimage->value)
{
searchimage->topi = topi;
searchimage->topj = topj;
searchimage->midi = midi;
searchimage->midj = midj;
searchimage->boti = boti;
searchimage->botj = botj;
searchimage->value = value;
}
}
/****************** forming input and output vectors ********************/
static void
form_inprep_targets (modi, slots)
/* form an input vector and targets for the hfm system */
int modi; /* module number: store or retrieve */
int slots[]; /* target indices */
{
int i, j; /* component counters */
/* if input comes from the storypars or cueformer, use current storyrep */
if (chain)
for (i = 0; i < nslotrep; i++)
inprep[modi][i] = slotrep[i];
/* form the input vector from correct targets (from the lexicon) */
else
for (i = 0; i < ninputs[modi]; i++)
for (j = 0; j < nsrep; j++)
inprep[modi][i * nsrep + j] = swords[slots[i]].rep[j];
/* form the targets */
for (i = 0; i < ninputs[modi]; i++)
{
targets[modi][i] = slots[i];
for (j = 0; j < nsrep; j++)
tgtrep[modi][i * nsrep + j] = swords[slots[i]].rep[j];
}
}
static void
form_outrep (modi, image)
/* form the final output vector of the map from the input weights
of the image units */
int modi; /* module number: store or retrieve */
IMAGEDATA image; /* image unit indices & value */
{
int i, babbling_save;
char s[MAXSTRL + 1];
/* no trace was found in retrieval */
if (modi == RETMOD && image.value < aliveact)
{
if (babbling || print_mistakes)
{
/* this is actually a mistake, but it is reported through a comment;
comments are printed only when babbling,
so force babbling for this while */
babbling_save = babbling;
babbling = TRUE;
printcomment ("\n", "oops: no image found", "\n");
babbling = babbling_save;
}
for (i = 0; i < noutrep[modi]; i++)
outrep[modi][i] = 0.0; /* no output vector generated */
}
/* a good trace was found, or vector was stored */
else
{
/* report the image unit indices */
sprintf (s, "image units (%d,%d), (%d,%d), (%d,%d):",
image.topi, image.topj, image.midi, image.midj,
image.boti, image.botj);
printcomment ("\n", s, "\n");
/* collect the output vector from the input weights of the image units */
for (i = 0; i < noutrep[modi]; i++)
outrep[modi][i] = topunits[image.topi][image.topj].comp[i];
for (i = 0; i < nmidindices[image.topi][image.topj]; i++)
outrep[modi][midindices[image.topi][image.topj][i]] =
midunits[image.topi][image.topj][image.midi][image.midj].comp[i];
for (i = 0;
i < nbotindices[image.topi][image.topj][image.midi][image.midj];
i++)
outrep[modi][botindices[image.topi][image.topj]
[image.midi][image.midj][i]] =
botunits[image.topi][image.topj]
[image.midi][image.midj]
[image.boti][image.botj].comp[i];
}
}
/********************* initializations ******************************/
void
hfm_init ()
/* initialize the episodic memory */
{
int topi, topj, midi, midj, k;
FILE *fp;
/* set up numbers of input/output words and reps for convenience */
ninputs[STOREMOD] = noutputs[STOREMOD] = nslot;
ninputs[RETMOD] = noutputs[RETMOD] = nslot;
ninprep[STOREMOD] = noutrep[STOREMOD] = nslot * nsrep;
ninprep[RETMOD] = noutrep[RETMOD] = nslot *nsrep;
/* open the weight file */
printf ("Reading hierarchical feature maps from %s...", hfmfile);
open_file (hfmfile, "r", &fp, REQUIRED);
/* ignore everything until the net sizes */
read_till_keyword (fp, HFMSIMU_NTOPNET, REQUIRED);
fscanf (fp, "%d", &ntopnet);
if (ntopnet > MAXTOPNET || ntopnet <= 0)
{
fprintf (stderr, "%s %s exceed array size\n", hfmfile, HFMSIMU_NTOPNET);
exit (EXIT_SIZE_ERROR);
}
read_till_keyword (fp, HFMSIMU_NMIDNET, REQUIRED);
fscanf (fp, "%d", &nmidnet);
if (nmidnet > MAXMIDNET || nmidnet <= 0)
{
fprintf (stderr, "%s %s exceed array size\n", hfmfile, HFMSIMU_NMIDNET);
exit (EXIT_SIZE_ERROR);
}
read_till_keyword (fp, HFMSIMU_NBOTNET, REQUIRED);
fscanf (fp, "%d", &nbotnet);
if (nbotnet > MAXBOTNET || nbotnet <= 0)
{
fprintf (stderr, "%s %s exceed array size\n", hfmfile, HFMSIMU_NBOTNET);
exit (EXIT_SIZE_ERROR);
}
/* then ignore everything until the weights */
read_till_keyword (fp, HFMSIMU_WEIGHTS, REQUIRED);
/* read the weights */
hfm_iterate_weights (readfun, fp, NOT_USED, NOT_USED);
/* then ignore everything until the indices */
read_till_keyword (fp, HFMSIMU_INDICES, REQUIRED);
/* read the mid-level indices */
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
{
fscanf (fp, "%d", &nmidindices[topi][topj]);
for (k = 0; k < nmidindices[topi][topj]; k++)
if (fscanf (fp, "%d", &midindices[topi][topj][k]) != 1)
{
fprintf (stderr, "Error reading mid-level indices\n");
exit (EXIT_DATA_ERROR);
}
}
/* read the bottom-level indices */
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
for (midi = 0; midi < nmidnet; midi++)
for (midj = 0; midj < nmidnet; midj++)
{
fscanf (fp, "%d\n", &nbotindices[topi][topj][midi][midj]);
for (k = 0; k < nbotindices[topi][topj][midi][midj]; k++)
if (fscanf (fp, "%d\n",
&botindices[topi][topj][midi][midj][k]) != 1)
{
fprintf (stderr,
"Error reading bottom-level indices\n");
exit (EXIT_DATA_ERROR);
}
}
printf ("Done.\n");
}
static void
hfm_iterate_weights (dofun, fp, par1, par2)
/* read the weights from the file */
void (*dofun) __P((FILE *, double *, double, double)); /* read function */
FILE *fp;
double par1, par2; /* not used (in reading weights) */
{
int topi, topj, midi, midj, boti, botj, k;
/* top-level input weights */
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
for (k = 0; k < nslotrep; k++)
(*dofun) (fp, &topunits[topi][topj].comp[k], par1, par2);
/* middle-level input weights */
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
for (midi = 0; midi < nmidnet; midi++)
for (midj = 0; midj < nmidnet; midj++)
for (k = 0; k < nslotrep; k++)
(*dofun) (fp, &midunits[topi][topj][midi][midj].comp[k],
par1, par2);
/* bottom-level input weights */
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
for (midi = 0; midi < nmidnet; midi++)
for (midj = 0; midj < nmidnet; midj++)
for (boti = 0; boti < nbotnet; boti++)
for (botj = 0; botj < nbotnet; botj++)
for (k = 0; k < nslotrep; k++)
(*dofun) (fp, &botunits[topi][topj]
[midi][midj]
[boti][botj].comp[k],
par1, par2);
}
void
hfm_clear_values ()
/* clear the lexicon activations */
{
int topi, topj, midi, midj, boti, botj;
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
{
topunits[topi][topj].prevvalue = topunits[topi][topj].value;
topunits[topi][topj].value = 0.0;
for (midi = 0; midi < nmidnet; midi++)
for (midj = 0; midj < nmidnet; midj++)
{
midunits[topi][topj][midi][midj].prevvalue
= midunits[topi][topj][midi][midj].value;
midunits[topi][topj][midi][midj].value = 0.0;
for (boti = 0; boti < nbotnet; boti++)
for (botj = 0; botj < nbotnet; botj++)
{
botunits[topi][topj][midi][midj][boti][botj].prevvalue =
botunits[topi][topj][midi][midj][boti][botj].value;
botunits[topi][topj][midi][midj][boti][botj].value = 0.0;
}
}
}
}
void
hfm_clear_prevvalues ()
/* reset the previous activations to NOPREV, so that the whole hfm system
will be displayed (because prevvalues are different to current values) */
{
int topi, topj, midi, midj, boti, botj;
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
{
topunits[topi][topj].prevvalue = NOPREV;
for (midi = 0; midi < nmidnet; midi++)
for (midj = 0; midj < nmidnet; midj++)
{
midunits[topi][topj][midi][midj].prevvalue = NOPREV;
for (boti = 0; boti < nbotnet; boti++)
for (botj = 0; botj < nbotnet; botj++)
botunits[topi][topj][midi][midj][boti][botj].prevvalue
= NOPREV;
}
}
}
void
hfm_clear_labels ()
/* clear map labels */
{
int topi, topj, midi, midj, boti, botj;
for (topi = 0; topi < ntopnet; topi++)
for (topj = 0; topj < ntopnet; topj++)
{
topunits[topi][topj].labelcount = 0;
for (midi = 0; midi < nmidnet; midi++)
for (midj = 0; midj < nmidnet; midj++)
{
midunits[topi][topj][midi][midj].labelcount = 0;
for (boti = 0; boti < nbotnet; boti++)
for (botj = 0; botj < nbotnet; botj++)
botunits[topi][topj][midi][midj][boti][botj].labelcount = 0;
}
}
}