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Revision 1014 - (download) (annotate)
Mon May 12 12:33:16 2003 UTC (20 years, 10 months ago) by suxen_drol
File size: 35669 byte(s)
zones, profiles, vfw changes
/******************************************************************************
 *
 * XviD Bit Rate Controller Library
 * - VBR 2 pass bitrate controler implementation -
 *
 * Copyright (C) 2002 Edouard Gomez <ed.gomez@wanadoo.fr>
 *
 * The curve treatment algorithm is the one implemented by Foxer <email?> and
 * Dirk Knop <dknop@gwdg.de> for the XviD vfw dynamic library.
 *
 * 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.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *
 * $Id: plugin_2pass2.c,v 1.1.2.3 2003-05-12 12:33:16 suxen_drol Exp $
 *
 *****************************************************************************/

#include <stdio.h>
#include <math.h>

#define RAD2DEG 57.295779513082320876798154814105
#define DEG2RAD 0.017453292519943295769236907684886

#include "../xvid.h"
#include "../image/image.h"

typedef struct {
    int type;               /* first pass type */
    int quant;              /* first pass quant */
	int blks[3];			/* k,m,y blks */
    int length;             /* first pass length */
    int scaled_length;     /* scaled length */
    int desired_length;
} stat_t;




/* context struct */
typedef struct
{
    xvid_plugin_2pass2_t param;

    /* constant statistical data */
	int num_frames;
    int num_keyframes;
    uint64_t target;	/* target bitrate */
	
    int count[3];   /* count of each frame types */
    uint64_t tot_length[3];  /* total length of each frame types */
    double avg_length[3];   /* avg */
    int min_length[3];  /* min frame length of each frame types */
    uint64_t tot_scaled_length[3];  /* total scaled length of each frame type */
    int max_length;     /* max frame size */
    
    double curve_comp_scale;
    double movie_curve;

	double alt_curve_low;
	double alt_curve_high;
	double alt_curve_low_diff;
	double alt_curve_high_diff;
    double alt_curve_curve_bias_bonus;
	double alt_curve_mid_qual;
	double alt_curve_qual_dev;

    /* dynamic */

    int * keyframe_locations;
    stat_t * stats;
    
    double pquant_error[32];
    double bquant_error[32];
    int quant_count[32];
    int last_quant[3];

    double curve_comp_error;
    int overflow;
    int KFoverflow;
    int KFoverflow_partial;
    int KF_idx;
} rc_2pass2_t;



#define BUF_SZ 1024
#define MAX_COLS    5


/* open stats file, and count num frames */

static int det_stats_length(rc_2pass2_t * rc, char * filename)
{
    FILE * f;
    int n, ignore;
    char type;

    rc->num_frames = 0;
    rc->num_keyframes = 0;

    if ((f = fopen(filename, "rt")) == NULL)
        return 0;

    while((n = fscanf(f, "%c %d %d %d %d %d %d\n",
        &type, &ignore, &ignore, &ignore, &ignore, &ignore, &ignore)) != EOF) {
        if (type == 'i') {
            rc->num_frames++;
            rc->num_keyframes++;
        }else if (type == 'p' || type == 'b' || type == 's') {
            rc->num_frames++;
        }
    }

    fclose(f);

    return 1;
}


/* scale the curve */

static void internal_scale(rc_2pass2_t *rc)
{
	int64_t target  = rc->target;
	int64_t tot_length = rc->tot_length[0] + rc->tot_length[1] + rc->tot_length[2];
	int min_size[3];
	double scaler;
	int i;
	
	if (target <= 0 || target >= tot_length) {
		printf("undersize warning\n");
	}

	/* perform an initial scale pass.
	   if a frame size is scaled underneath our hardcoded minimums, then we force the
	   frame size to the minimum, and deduct the original & scaled frmae length from the
	   original and target total lengths */

	min_size[0] = ((rc->stats[0].blks[0]*22) + 240) / 8;
	min_size[1] = (rc->stats[0].blks[0] + 88) / 8;
	min_size[2] = 8;


	scaler = (double)target / (double)tot_length;
	//printf("target=%i, tot_length=%i, scaler=%f\n", (int)target, (int)tot_length, scaler);

	for (i=0; i<rc->num_frames; i++) {
		stat_t * s = &rc->stats[i];
		int len;
		
		len = (int)((double)s->length * scaler);
		if (len < min_size[s->type]) {		/* force frame size */
			s->scaled_length = min_size[s->type];
			target -= s->scaled_length;
			tot_length -= s->length;
		}else{
			s->scaled_length = 0;
		}
	}

	if (target <= 0 || target >= tot_length) {
		printf("undersize warning\n");
		return;
	}

	scaler = (double)target / (double)tot_length;
	//printf("target=%i, tot_length=%i, scaler=%f\n", (int)target, (int)tot_length, scaler);

	for (i=0; i<rc->num_frames; i++) {
		stat_t * s = &rc->stats[i];

		if (s->scaled_length==0) {	/* ignore frame with forced frame sizes */
			s->scaled_length = (int)((double)s->length * scaler);
		}
	}

}





/* static void internal_scale(rc_2pass2_t *rc)
{
    const double avg_pvop = rc->avg_length[XVID_TYPE_PVOP-1];
    const double avg_bvop = rc->avg_length[XVID_TYPE_BVOP-1];
    const uint64_t tot_pvop = rc->tot_length[XVID_TYPE_PVOP-1];
    const uint64_t tot_bvop = rc->tot_length[XVID_TYPE_BVOP-1];
    uint64_t i_total = 0;
	double total1,total2;
    int i;

    for (i=0; i<rc->num_frames; i++) {
        stat_t * s = &rc->stats[i];

		if (s->type == XVID_TYPE_IVOP) {
			i_total += s->length + s->length * rc->param.keyframe_boost / 100;
        }
	}

	// compensate for avi frame overhead
	rc->target_size -= rc->num_frames * 24;

	// perform prepass to compensate for over/undersizing

	if (rc->param.use_alt_curve) {

        rc->alt_curve_low = avg_pvop - avg_pvop * (double)rc->param.alt_curve_low_dist / 100.0;
		rc->alt_curve_low_diff = avg_pvop - rc->alt_curve_low;
		rc->alt_curve_high = avg_pvop + avg_pvop * (double)rc->param.alt_curve_high_dist / 100.0;
		rc->alt_curve_high_diff = rc->alt_curve_high - avg_pvop;
		if (rc->alt_curve_use_auto) {
			if (rc->movie_curve > 1.0) {
				rc->param.alt_curve_min_rel_qual = (int)(100.0 - (100.0 - 100.0 / rc->movie_curve) * (double)rc->param.alt_curve_auto_str / 100.0);
				if (rc->param.alt_curve_min_rel_qual < 20)
					rc->param.alt_curve_min_rel_qual = 20;
            }else{
				rc->param.alt_curve_min_rel_qual = 100;
            }
		}
		rc->alt_curve_mid_qual = (1.0 + (double)rc->param.alt_curve_min_rel_qual / 100.0) / 2.0;
		rc->alt_curve_qual_dev = 1.0 - rc->alt_curve_mid_qual;

		if (rc->param.alt_curve_low_dist > 100) {
			switch(rc->param.alt_curve_type) {
			case XVID_CURVE_SINE : // Sine Curve (high aggressiveness)
				rc->alt_curve_qual_dev *= 2.0 / (1.0 + sin(DEG2RAD * (avg_pvop * 90.0 / rc->alt_curve_low_diff)));
				rc->alt_curve_mid_qual = 1.0 - rc->alt_curve_qual_dev * sin(DEG2RAD * (avg_pvop * 90.0 / rc->alt_curve_low_diff));
				break;
			case XVID_CURVE_LINEAR : // Linear (medium aggressiveness)
				rc->alt_curve_qual_dev *= 2.0 / (1.0 + avg_pvop / rc->alt_curve_low_diff);
				rc->alt_curve_mid_qual = 1.0 - rc->alt_curve_qual_dev * avg_pvop / rc->alt_curve_low_diff;
				break;
			case XVID_CURVE_COSINE : // Cosine Curve (low aggressiveness)
				rc->alt_curve_qual_dev *= 2.0 / (1.0 +  (1.0 - cos(DEG2RAD * (avg_pvop * 90.0 / rc->alt_curve_low_diff))));
				rc->alt_curve_mid_qual = 1.0 - rc->alt_curve_qual_dev * (1.0 - cos(DEG2RAD * (avg_pvop * 90.0 / rc->alt_curve_low_diff)));
			}
		}
	}

	total1 = 0;
	total2 = 0;

    for (i=0; i<rc->num_frames; i++) {
        stat_t * s = &rc->stats[i];

		if (s->type != XVID_TYPE_IVOP) {
			
            double dbytes = s->length / rc->movie_curve;
            double dbytes2;
			total1 += dbytes;

			if (s->type == XVID_TYPE_BVOP)
				dbytes *= avg_pvop / avg_bvop;

			if (rc->param.use_alt_curve) {
				if (dbytes > avg_pvop) {
                    if (dbytes >= rc->alt_curve_high) {
						dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev);
                    }else{
						switch(rc->param.alt_curve_type){
						case XVID_CURVE_SINE :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * sin(DEG2RAD * ((dbytes - avg_pvop) * 90.0 / rc->alt_curve_high_diff)));
							break;
						case XVID_CURVE_LINEAR :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (dbytes - avg_pvop) / rc->alt_curve_high_diff);
							break;
						case XVID_CURVE_COSINE :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (1.0 - cos(DEG2RAD * ((dbytes - avg_pvop) * 90.0 / rc->alt_curve_high_diff))));
						}
					}
				}else{
                    if (dbytes <= rc->alt_curve_low){
						dbytes2 = dbytes;
                    }else{
						switch(rc->param.alt_curve_type){
						case XVID_CURVE_SINE :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * sin(DEG2RAD * ((dbytes - avg_pvop) * 90.0 / rc->alt_curve_low_diff)));
							break;
						case XVID_CURVE_LINEAR :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (dbytes - avg_pvop) / rc->alt_curve_low_diff);
							break;
						case XVID_CURVE_COSINE :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual + rc->alt_curve_qual_dev * (1.0 - cos(DEG2RAD * ((dbytes - avg_pvop) * 90.0 / rc->alt_curve_low_diff))));
						}
					}
				}
			}else{
                if (dbytes > avg_pvop) {
					dbytes2 = ((double)dbytes + (avg_pvop - dbytes) *
						rc->param.curve_compression_high / 100.0);
				}else{
					dbytes2 = ((double)dbytes + (avg_pvop - dbytes) *
						rc->param.curve_compression_low / 100.0);
				}
			}

			if (s->type == XVID_TYPE_BVOP) {
				dbytes2 *= avg_bvop / avg_pvop;
            }

            if (dbytes2 < rc->min_length[s->type-1]) {
                dbytes = rc->min_length[s->type-1];
            }

            total2 += dbytes2;
		}
	}

	rc->curve_comp_scale = total1 / total2;

	if (!rc->param.use_alt_curve) {
		printf("middle frame size for asymmetric curve compression: %i", 
            (int)(avg_pvop * rc->curve_comp_scale));
	}
}*/



/* open stats file(s) and read into rc->stats array */

static int load_stats(rc_2pass2_t *rc, char * filename)
{
    FILE * f;
    int i, not_scaled;
 

    if ((f = fopen(filename, "rt"))==NULL)
        return 0;
    
    i = 0;
	not_scaled = 0;
    while(i < rc->num_frames) {
        stat_t * s = &rc->stats[i];
        int n;
        char type;

		s->scaled_length = 0;
        n = fscanf(f, "%c %d %d %d %d %d %d\n", &type, &s->quant, &s->blks[0], &s->blks[1], &s->blks[2], &s->length, &s->scaled_length);
        if (n == EOF) break;
		if (n < 7) {
			not_scaled = 1;
		}

        if (type == 'i') {
            s->type = XVID_TYPE_IVOP;
        }else if (type == 'p' || type == 's') {
            s->type = XVID_TYPE_PVOP;
        }else if (type == 'b') {
            s->type = XVID_TYPE_BVOP;
        }else{  /* unknown type */
            printf("unk\n");
            continue;
        }

        i++;
    }
    rc->num_frames = i;
   
    fclose(f);

    return 1;
}





static void print_stats(rc_2pass2_t * rc)
{
    int i;
    for (i = 0; i < rc->num_frames; i++) {
        stat_t * s = &rc->stats[i];
        printf("%i %i %i %i\n", s->type, s->quant, s->length, s->scaled_length);

    }
}


/* pre-process the statistics data 
    this is a clone of vfw/src/2pass.c:codec_2pass_init minus file reading, alt_curve, internal scale
*/

void pre_process0(rc_2pass2_t * rc)
{
    int i,j;

    for (i=0; i<3; i++) {
        rc->count[i]=0;
        rc->tot_length[i] = 0;
        rc->last_quant[i] = 0;
    }

    for (i=0; i<32;i++) {
        rc->pquant_error[i] = 0;
        rc->bquant_error[i] = 0;
        rc->quant_count[i] = 0;
    }

    for (i=j=0; i<rc->num_frames; i++) {
        stat_t * s = &rc->stats[i];

        rc->count[s->type-1]++;
        rc->tot_length[s->type-1] += s->length;
       
        if (i == 0 || s->length < rc->min_length[s->type-1]) {
            rc->min_length[s->type-1] = s->length;
        }

        if (i == 0 || s->length > rc->max_length) {
            rc->max_length = s->length;
        }

        if (s->type == XVID_TYPE_IVOP) {
            rc->keyframe_locations[j] = i;
            j++;
        }
    }
    rc->keyframe_locations[j] = i;
}



void pre_process1(rc_2pass2_t * rc)
{
    int i;
    double total1, total2;
    uint64_t ivop_boost_total;

    ivop_boost_total = 0;
    rc->curve_comp_error = 0;

    for (i=0; i<3; i++) {
        rc->tot_scaled_length[i] = 0;
    }

    for (i=0; i<rc->num_frames; i++) {
        stat_t * s = &rc->stats[i];

        rc->tot_scaled_length[s->type-1] += s->scaled_length;
       
        if (s->type == XVID_TYPE_IVOP) {
            ivop_boost_total += s->scaled_length * rc->param.keyframe_boost / 100;
        }
    }

    rc->movie_curve = ((double)(rc->tot_scaled_length[XVID_TYPE_PVOP-1] + rc->tot_scaled_length[XVID_TYPE_BVOP-1] + ivop_boost_total) /
			                (rc->tot_scaled_length[XVID_TYPE_PVOP-1] + rc->tot_scaled_length[XVID_TYPE_BVOP-1]));

    for(i=0; i<3; i++) {
        if (rc->count[i] == 0 || rc->movie_curve == 0) {
            rc->avg_length[i] = 1;
        }else{
            rc->avg_length[i] = rc->tot_scaled_length[i] / rc->count[i] / rc->movie_curve;
        }
    }

    /* alt curve stuff here */

    if (rc->param.use_alt_curve) {
        const double avg_pvop = rc->avg_length[XVID_TYPE_PVOP-1];
        const uint64_t tot_pvop = rc->tot_length[XVID_TYPE_PVOP-1];
        const uint64_t tot_bvop = rc->tot_length[XVID_TYPE_BVOP-1];
        const uint64_t tot_scaled_pvop = rc->tot_scaled_length[XVID_TYPE_PVOP-1];
        const uint64_t tot_scaled_bvop = rc->tot_scaled_length[XVID_TYPE_BVOP-1];

		rc->alt_curve_low = avg_pvop - avg_pvop * (double)rc->param.alt_curve_low_dist / 100.0;
		rc->alt_curve_low_diff = avg_pvop - rc->alt_curve_low;
		rc->alt_curve_high = avg_pvop + avg_pvop * (double)rc->param.alt_curve_high_dist / 100.0;
		rc->alt_curve_high_diff = rc->alt_curve_high - avg_pvop;

        if (rc->param.alt_curve_use_auto) {
            if (tot_bvop + tot_pvop > tot_scaled_bvop + tot_scaled_pvop) {
				rc->param.alt_curve_min_rel_qual = (int)(100.0 - (100.0 - 100.0 /
					((double)(tot_pvop + tot_bvop) / (double)(tot_scaled_pvop + tot_scaled_bvop))) * (double)rc->param.alt_curve_auto_str / 100.0);

				if (rc->param.alt_curve_min_rel_qual < 20)
					rc->param.alt_curve_min_rel_qual = 20;
            }else{
				rc->param.alt_curve_min_rel_qual = 100;
            }
        }
		rc->alt_curve_mid_qual = (1.0 + (double)rc->param.alt_curve_min_rel_qual / 100.0) / 2.0;
		rc->alt_curve_qual_dev = 1.0 - rc->alt_curve_mid_qual;
			
        if (rc->param.alt_curve_low_dist > 100) {
			switch(rc->param.alt_curve_type) {
            case XVID_CURVE_SINE: // Sine Curve (high aggressiveness)
				rc->alt_curve_qual_dev *= 2.0 / (1.0 + sin(DEG2RAD * (avg_pvop * 90.0 / rc->alt_curve_low_diff)));
				rc->alt_curve_mid_qual = 1.0 - rc->alt_curve_qual_dev * sin(DEG2RAD * (avg_pvop * 90.0 / rc->alt_curve_low_diff));
				break;
			case XVID_CURVE_LINEAR: // Linear (medium aggressiveness)
				rc->alt_curve_qual_dev *= 2.0 / (1.0 + avg_pvop / rc->alt_curve_low_diff);
				rc->alt_curve_mid_qual = 1.0 - rc->alt_curve_qual_dev * avg_pvop / rc->alt_curve_low_diff;
				break;
			case XVID_CURVE_COSINE: // Cosine Curve (low aggressiveness)
				rc->alt_curve_qual_dev *= 2.0 / (1.0 + (1.0 - cos(DEG2RAD * (avg_pvop * 90.0 / rc->alt_curve_low_diff))));
				rc->alt_curve_mid_qual = 1.0 - rc->alt_curve_qual_dev * (1.0 - cos(DEG2RAD * (avg_pvop * 90.0 / rc->alt_curve_low_diff)));
			}
		}
    }
    /* --- */


    total1=total2=0;
    for (i=0; i<rc->num_frames; i++) {
        stat_t * s = &rc->stats[i];

        if (s->type != XVID_TYPE_IVOP) {
            double dbytes,dbytes2;

            dbytes = s->scaled_length / rc->movie_curve;
            dbytes2 = 0; /* XXX: warning */
            total1 += dbytes;
            if (s->type == XVID_TYPE_BVOP)
                dbytes *= rc->avg_length[XVID_TYPE_PVOP-1] / rc->avg_length[XVID_TYPE_BVOP-1];

            if (rc->param.use_alt_curve) {
                if (dbytes > rc->avg_length[XVID_TYPE_PVOP-1]) {

                    if (dbytes >= rc->alt_curve_high) {
						dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev);
                    }else{
						switch(rc->param.alt_curve_type) {
                        case XVID_CURVE_SINE :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * sin(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_high_diff)));
							break;
                        case XVID_CURVE_LINEAR :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) / rc->alt_curve_high_diff);
							break;
						case XVID_CURVE_COSINE :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (1.0 - cos(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_high_diff))));
						}
					}
                }else{
                    if (dbytes <= rc->alt_curve_low) {
						dbytes2 = dbytes;
                    }else{
						switch(rc->param.alt_curve_type) {
						case XVID_CURVE_SINE :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * sin(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_low_diff)));
							break;
						case XVID_CURVE_LINEAR :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) / rc->alt_curve_low_diff);
							break;
						case XVID_CURVE_COSINE :
						    dbytes2 = dbytes * (rc->alt_curve_mid_qual + rc->alt_curve_qual_dev * (1.0 - cos(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_low_diff))));
						}
					}

                }


            }else{
                if (dbytes > rc->avg_length[XVID_TYPE_PVOP-1]) {
                    dbytes2=((double)dbytes + (rc->avg_length[XVID_TYPE_PVOP-1] - dbytes) * rc->param.curve_compression_high / 100.0);
                }else{
			        dbytes2 = ((double)dbytes + (rc->avg_length[XVID_TYPE_PVOP-1] - dbytes) * rc->param.curve_compression_low / 100.0);
                }
            }

            if (s->type == XVID_TYPE_BVOP) {
			    dbytes2 *= rc->avg_length[XVID_TYPE_BVOP-1] / rc->avg_length[XVID_TYPE_PVOP-1];
			    if (dbytes2 < rc->min_length[XVID_TYPE_BVOP-1])
				    dbytes2 = rc->min_length[XVID_TYPE_BVOP-1];
            }else{
			    if (dbytes2 < rc->min_length[XVID_TYPE_PVOP-1])
				    dbytes2 = rc->min_length[XVID_TYPE_PVOP-1];
            }
            total2 += dbytes2;
        }
    }

    rc->curve_comp_scale = total1 / total2;

    if (!rc->param.use_alt_curve) {
        printf("middle frame size for asymmetric curve compression: %i\n",
            (int)(rc->avg_length[XVID_TYPE_PVOP-1] * rc->curve_comp_scale));
    }

    if (rc->param.use_alt_curve) {
        int bonus_bias = rc->param.alt_curve_bonus_bias;
        int oldquant = 1;

	    if (rc->param.alt_curve_use_auto_bonus_bias)
		    bonus_bias = rc->param.alt_curve_min_rel_qual;

	    rc->alt_curve_curve_bias_bonus = (total1 - total2) * (double)bonus_bias / 100.0 / (double)(rc->num_frames /* - credits_frames */ - rc->num_keyframes);
	    rc->curve_comp_scale = ((total1 - total2) * (1.0 - (double)bonus_bias / 100.0) + total2) / total2;


        /* special info for alt curve:  bias bonus and quantizer thresholds */

		printf("avg scaled framesize:%i", (int)rc->avg_length[XVID_TYPE_PVOP-1]);
		printf("bias bonus:%i bytes", (int)rc->alt_curve_curve_bias_bonus);

		for (i=1; i <= (int)(rc->alt_curve_high*2)+1; i++) {
            double curve_temp, dbytes;
            int newquant;

            dbytes = i;
			if (dbytes > rc->avg_length[XVID_TYPE_PVOP-1]) {
                if (dbytes >= rc->alt_curve_high) {
					curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev);
                }else{
					switch(rc->param.alt_curve_type)
					{
					case XVID_CURVE_SINE :
						curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * sin(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_high_diff)));
						break;
					case XVID_CURVE_LINEAR :
						curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) / rc->alt_curve_high_diff);
						break;
					case XVID_CURVE_COSINE :
						curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (1.0 - cos(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_high_diff))));
					}
				}
			}else{
                if (dbytes <= rc->alt_curve_low) {
					curve_temp = dbytes;
                }else{
					switch(rc->param.alt_curve_type)
					{
					case XVID_CURVE_SINE :
						curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * sin(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_low_diff)));
						break;
					case XVID_CURVE_LINEAR :
						curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) / rc->alt_curve_low_diff);
						break;
					case XVID_CURVE_COSINE :
						curve_temp = dbytes * (rc->alt_curve_mid_qual + rc->alt_curve_qual_dev * (1.0 - cos(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_low_diff))));
					}
				}
			}

			if (rc->movie_curve > 1.0)
				dbytes *= rc->movie_curve;

			newquant = (int)(dbytes * 2.0 / (curve_temp * rc->curve_comp_scale + rc->alt_curve_curve_bias_bonus));
			if (newquant > 1) {
				if (newquant != oldquant) {
                    int percent = (int)((i - rc->avg_length[XVID_TYPE_PVOP-1]) * 100.0 / rc->avg_length[XVID_TYPE_PVOP-1]);
					oldquant = newquant;
					printf("quant:%i threshold at %i : %i percent", newquant, i, percent);
				}
			}
		}

    }
   
    rc->overflow = 0;
    rc->KFoverflow = 0;
    rc->KFoverflow_partial = 0;
    rc->KF_idx = 1;
}




static int rc_2pass2_create(xvid_plg_create_t * create, rc_2pass2_t ** handle)
{
    xvid_plugin_2pass2_t * param = (xvid_plugin_2pass2_t *)create->param;
    rc_2pass2_t * rc;

    rc = malloc(sizeof(rc_2pass2_t));
    if (rc == NULL) 
        return XVID_ERR_MEMORY;

    rc->param = *param;

    if (rc->param.keyframe_boost <= 0) rc->param.keyframe_boost = 0;
    if (rc->param.payback_method <= 0) rc->param.payback_method = XVID_PAYBACK_PROP;
    if (rc->param.bitrate_payback_delay <= 0) rc->param.bitrate_payback_delay = 250;
    if (rc->param.curve_compression_high <= 0) rc->param.curve_compression_high = 0;
    if (rc->param.curve_compression_low <= 0) rc->param.curve_compression_low = 0;
    if (rc->param.max_overflow_improvement <= 0) rc->param.max_overflow_improvement = 60;
    if (rc->param.max_overflow_degradation <= 0) rc->param.max_overflow_degradation = 60;

    if (rc->param.use_alt_curve <= 0) rc->param.use_alt_curve = 0;
    if (rc->param.alt_curve_high_dist <= 0) rc->param.alt_curve_high_dist = 500;
    if (rc->param.alt_curve_low_dist <= 0) rc->param.alt_curve_low_dist = 90;
    if (rc->param.alt_curve_use_auto <= 0) rc->param.alt_curve_use_auto = 1;
    if (rc->param.alt_curve_auto_str <= 0) rc->param.alt_curve_auto_str = 30;
    if (rc->param.alt_curve_type <= 0) rc->param.alt_curve_type = XVID_CURVE_LINEAR;
    if (rc->param.alt_curve_min_rel_qual <= 0) rc->param.alt_curve_min_rel_qual = 50;
    if (rc->param.alt_curve_use_auto_bonus_bias <= 0) rc->param.alt_curve_use_auto_bonus_bias = 1;
    if (rc->param.alt_curve_bonus_bias <= 0) rc->param.alt_curve_bonus_bias = 50;

    if (rc->param.kftreshold <= 0) rc->param.kftreshold = 10;
    if (rc->param.kfreduction <= 0) rc->param.kfreduction = 20;
    if (rc->param.min_key_interval <= 0) rc->param.min_key_interval = 300;

    if (!det_stats_length(rc, param->filename)){
        DPRINTF(DPRINTF_RC,"fopen %s failed\n", param->filename);
        free(rc);
        return XVID_ERR_FAIL;
    }

    if ((rc->stats = malloc(rc->num_frames * sizeof(stat_t))) == NULL) {
        free(rc);
        return XVID_ERR_MEMORY;
    }

    /* XXX: do we need an addition location */
    if ((rc->keyframe_locations = malloc((rc->num_keyframes + 1) * sizeof(int))) == NULL) {
        free(rc->stats);
        free(rc);
        return XVID_ERR_MEMORY;
    }

    if (!load_stats(rc, param->filename)) {
        DPRINTF(DPRINTF_RC,"fopen %s failed\n", param->filename);
        free(rc->keyframe_locations);
        free(rc->stats);
        free(rc);
        return XVID_ERR_FAIL;
    }

    /* pre-process our stats */

	{
		if (rc->num_frames  < create->fbase/create->fincr) {
			rc->target = rc->param.bitrate / 8;	/* one second */
		}else{
			rc->target = (rc->param.bitrate * rc->num_frames * create->fincr) / (create->fbase * 8);
		}

		
		rc->target -= rc->num_frames*24;	/* avi file header */

	}
    

	pre_process0(rc);
	if (rc->param.bitrate) {
		internal_scale(rc);
	}
	pre_process1(rc);pre_process1(rc);pre_process1(rc);
    
    *handle = rc;
	return(0);
}


static int rc_2pass2_destroy(rc_2pass2_t * rc, xvid_plg_destroy_t * destroy)
{
    free(rc->keyframe_locations);
    free(rc->stats);
	free(rc);
	return(0);
}



static int rc_2pass2_before(rc_2pass2_t * rc, xvid_plg_data_t * data)
{
    stat_t * s = &rc->stats[data->frame_num];
    int overflow;
    int desired;
    double dbytes;
    double curve_temp;
    int capped_to_max_framesize = 0;

    if (data->frame_num >= rc->num_frames) {
        /* insufficent stats data */
        return 0;
    }

    overflow = rc->overflow / 8;        /* XXX: why by 8 */

    if (s->type == XVID_TYPE_IVOP) {        /* XXX: why */
        overflow = 0;
    }

    desired = s->scaled_length;

    dbytes = desired;
    if (s->type == XVID_TYPE_IVOP) {
        dbytes += desired * rc->param.keyframe_boost / 100;
    }
    dbytes /= rc->movie_curve;

    if (s->type == XVID_TYPE_BVOP) {
        dbytes *= rc->avg_length[XVID_TYPE_PVOP-1] / rc->avg_length[XVID_TYPE_BVOP-1];
    }

    if (rc->param.payback_method == XVID_PAYBACK_BIAS) {
        desired =(int)(rc->curve_comp_error / rc->param.bitrate_payback_delay);
    }else{
		//printf("desired=%i, dbytes=%i\n", desired,dbytes);
		desired = (int)(rc->curve_comp_error * dbytes /
			rc->avg_length[XVID_TYPE_PVOP-1] / rc->param.bitrate_payback_delay);
		//printf("desired=%i\n", desired);

		if (labs(desired) > fabs(rc->curve_comp_error)) {
			desired = (int)rc->curve_comp_error;
		}
    }

    rc->curve_comp_error -= desired;

    /* alt curve */

    curve_temp = 0; /* XXX: warning */

    if (rc->param.use_alt_curve) {
        if (s->type != XVID_TYPE_IVOP)  {
            if (dbytes > rc->avg_length[XVID_TYPE_PVOP-1]) {
                if (dbytes >= rc->alt_curve_high) {
					curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev);
                }else{
                    switch(rc->param.alt_curve_type) {
					case XVID_CURVE_SINE :
					    curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * sin(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_high_diff)));
						break;
					case XVID_CURVE_LINEAR :
					    curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) / rc->alt_curve_high_diff);
						break;
					case XVID_CURVE_COSINE :
					    curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (1.0 - cos(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_high_diff))));
					}
				}
			}else{
                if (dbytes <= rc->alt_curve_low){
					curve_temp = dbytes;
                }else{
					switch(rc->param.alt_curve_type) {
					case XVID_CURVE_SINE :
					    curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * sin(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_low_diff)));
						break;
					case XVID_CURVE_LINEAR :
					    curve_temp = dbytes * (rc->alt_curve_mid_qual - rc->alt_curve_qual_dev * (dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) / rc->alt_curve_low_diff);
						break;
					case XVID_CURVE_COSINE :
					    curve_temp = dbytes * (rc->alt_curve_mid_qual + rc->alt_curve_qual_dev * (1.0 - cos(DEG2RAD * ((dbytes - rc->avg_length[XVID_TYPE_PVOP-1]) * 90.0 / rc->alt_curve_low_diff))));
                    }
				}
			}
			if (s->type == XVID_TYPE_BVOP)
				curve_temp *= rc->avg_length[XVID_TYPE_BVOP-1] / rc->avg_length[XVID_TYPE_PVOP-1];

			curve_temp = curve_temp * rc->curve_comp_scale + rc->alt_curve_curve_bias_bonus;

			desired += ((int)curve_temp);
			rc->curve_comp_error += curve_temp - (int)curve_temp;
		}else{
			if (s->type == XVID_TYPE_BVOP)
				dbytes *= rc->avg_length[XVID_TYPE_BVOP-1] / rc->avg_length[XVID_TYPE_PVOP-1];

			desired += ((int)dbytes);
			rc->curve_comp_error += dbytes - (int)dbytes;
		}

    }else if ((rc->param.curve_compression_high + rc->param.curve_compression_low) &&	s->type != XVID_TYPE_IVOP) {

        curve_temp = rc->curve_comp_scale;
        if (dbytes > rc->avg_length[XVID_TYPE_PVOP-1]) {
            curve_temp *= ((double)dbytes + (rc->avg_length[XVID_TYPE_PVOP-1] - dbytes) * rc->param.curve_compression_high / 100.0);
        } else {
            curve_temp *= ((double)dbytes + (rc->avg_length[XVID_TYPE_PVOP-1] - dbytes) * rc->param.curve_compression_low / 100.0);
        }

        if (s->type == XVID_TYPE_BVOP){
            curve_temp *= rc->avg_length[XVID_TYPE_BVOP-1] / rc->avg_length[XVID_TYPE_PVOP-1];
        }

        desired += (int)curve_temp;
        rc->curve_comp_error += curve_temp - (int)curve_temp;
    }else{
        if (s->type == XVID_TYPE_BVOP){
			dbytes *= rc->avg_length[XVID_TYPE_BVOP-1] / rc->avg_length[XVID_TYPE_PVOP-1];
        }

		desired += (int)dbytes;
		rc->curve_comp_error += dbytes - (int)dbytes;
    }

	if (desired > s->length){
		rc->curve_comp_error += desired - s->length;
		desired = s->length;
	}else{
        if (desired < rc->min_length[s->type-1]) {
            if (s->type == XVID_TYPE_IVOP){
                rc->curve_comp_error -= rc->min_length[XVID_TYPE_IVOP-1] - desired;
            }
            desired = rc->min_length[s->type-1];
        }
	}

    s->desired_length = desired;

   	
    /* if this keyframe is too close to the next, reduce it's byte allotment
    XXX: why do we do this after setting the desired length  */

	if (s->type == XVID_TYPE_IVOP) {
		int KFdistance = rc->keyframe_locations[rc->KF_idx] - rc->keyframe_locations[rc->KF_idx - 1];

        if (KFdistance < rc->param.kftreshold) {
			
            KFdistance = KFdistance - rc->param.min_key_interval;

			if (KFdistance >= 0) {
                int KF_min_size;

				KF_min_size = desired * (100 - rc->param.kfreduction) / 100;
				if (KF_min_size < 1)
					KF_min_size = 1;

				desired = KF_min_size + (desired - KF_min_size) * KFdistance /
					(rc->param.kftreshold - rc->param.min_key_interval);

				if (desired < 1)
					desired = 1;
			}
		}
	}

    overflow = (int)((double)overflow * desired / rc->avg_length[XVID_TYPE_PVOP-1]);

	// Foxer: reign in overflow with huge frames
	if (labs(overflow) > labs(rc->overflow)) {
		overflow = rc->overflow;
	}

    // Foxer: make sure overflow doesn't run away   

	if (overflow > desired * rc->param.max_overflow_improvement / 100) {
		desired += (overflow <= desired) ? desired * rc->param.max_overflow_improvement / 100 :
			overflow * rc->param.max_overflow_improvement / 100;
	}else if (overflow < desired * rc->param.max_overflow_degradation / -100){
		desired += desired * rc->param.max_overflow_degradation / -100;
	}else{
		desired += overflow;
	}

    if (desired > rc->max_length) {
		capped_to_max_framesize = 1;
		desired = rc->max_length;
	}

    // make sure to not scale below the minimum framesize
    if (desired < rc->min_length[s->type-1]) {
        desired = rc->min_length[s->type-1];
    }


    // very 'simple' quant<->filesize relationship
    data->quant= (s->quant * s->length) / desired;

	if (data->quant < 1) {
		data->quant = 1;
    } else if (data->quant > 31) {
		data->quant = 31;
	}
	else if (s->type != XVID_TYPE_IVOP)
	{
		// Foxer: aid desired quantizer precision by accumulating decision error
		if (s->type== XVID_TYPE_BVOP) {
			rc->bquant_error[data->quant] += ((double)(s->quant * s->length) / desired) - data->quant;

			if (rc->bquant_error[data->quant] >= 1.0) {
				rc->bquant_error[data->quant] -= 1.0;
				data->quant++;
			}
		}else{
			rc->pquant_error[data->quant] += ((double)(s->quant * s->length) / desired) - data->quant;

            if (rc->pquant_error[data->quant] >= 1.0) {
				rc->pquant_error[data->quant] -= 1.0;
				++data->quant;
			}
		}
	}

    /* cap to min/max quant */

    if (data->quant < data->min_quant[s->type-1]) {
        data->quant = data->min_quant[s->type-1];
    }else if (data->quant > data->max_quant[s->type-1]) {
        data->quant = data->max_quant[s->type-1];
    }

    /* subsequent p/b frame quants can only be +- 2 */
	if (s->type != XVID_TYPE_IVOP && rc->last_quant[s->type-1] && capped_to_max_framesize == 0) {

		if (data->quant > rc->last_quant[s->type-1] + 2) {
			data->quant = rc->last_quant[s->type-1] + 2;
			DPRINTF(DPRINTF_RC, "p/b-frame quantizer prevented from rising too steeply");
		}
		if (data->quant < rc->last_quant[s->type-1] - 2) {
			data->quant = rc->last_quant[s->type-1] - 2;
			DPRINTF(DPRINTF_RC, "p/b-frame quantizer prevented from falling too steeply");
		}
	}

	if (capped_to_max_framesize == 0) {
        rc->last_quant[s->type-1] = data->quant;
	}

	return 0;
}



static int rc_2pass2_after(rc_2pass2_t * rc, xvid_plg_data_t * data)
{
    stat_t * s = &rc->stats[data->frame_num];

    if (data->frame_num >= rc->num_frames) {
        /* insufficent stats data */
        return 0;
    }

    rc->quant_count[data->quant]++;

    if (data->type == XVID_TYPE_IVOP) {
        int kfdiff = (rc->keyframe_locations[rc->KF_idx] -	rc->keyframe_locations[rc->KF_idx - 1]);

        rc->overflow += rc->KFoverflow;
        rc->KFoverflow = s->desired_length - data->length;
		
        if (kfdiff > 1) {  // non-consecutive keyframes
            rc->KFoverflow_partial = rc->KFoverflow / (kfdiff - 1);
        }else{ // consecutive keyframes
			rc->overflow += rc->KFoverflow;
			rc->KFoverflow = 0;
			rc->KFoverflow_partial = 0;
        }
        rc->KF_idx++;
    }else{
        // distribute part of the keyframe overflow
        rc->overflow += s->desired_length - data->length + rc->KFoverflow_partial;
        rc->KFoverflow -= rc->KFoverflow_partial;
    }

    printf("[%i] quant:%i stats1:%i scaled:%i actual:%i overflow:%i\n",
        data->frame_num,
        data->quant,
        s->length,
        s->scaled_length,
        data->length,
        rc->overflow);

    return(0);
}



int xvid_plugin_2pass2(void * handle, int opt, void * param1, void * param2)
{
    switch(opt)
    {
    case XVID_PLG_INFO :
        return 0;

    case XVID_PLG_CREATE :
        return rc_2pass2_create((xvid_plg_create_t*)param1, param2);

    case XVID_PLG_DESTROY :
        return rc_2pass2_destroy((rc_2pass2_t*)handle, (xvid_plg_destroy_t*)param1);

    case XVID_PLG_BEFORE :
        return rc_2pass2_before((rc_2pass2_t*)handle, (xvid_plg_data_t*)param1);

    case XVID_PLG_AFTER :
        return rc_2pass2_after((rc_2pass2_t*)handle, (xvid_plg_data_t*)param1);
    }

    return XVID_ERR_FAIL;
}

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