scummvm/saga/isomap.cpp
2004-06-27 21:30:33 +00:00

287 lines
6.7 KiB
C++

/* ScummVM - Scumm Interpreter
* Copyright (C) 2004 The ScummVM project
*
* The ReInherit Engine is (C)2000-2003 by Daniel Balsom.
*
* 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.
*
* $Header$
*
*/
// Isometric level module
#include "saga.h"
#include "reinherit.h"
#include "game_mod.h"
#include "gfx_mod.h"
#include "isomap_mod.h"
#include "isomap.h"
namespace Saga {
static R_ISOMAP_MODULE IsoModule;
int ISOMAP_Init() {
IsoModule.init = 1;
return R_SUCCESS;
}
int ISOMAP_LoadTileset(const byte *tileres_p, size_t tileres_len) {
R_ISOTILE_ENTRY first_entry;
R_ISOTILE_ENTRY *tile_tbl;
uint16 i;
assert((IsoModule.init) && (!IsoModule.tiles_loaded));
assert((tileres_p != NULL) && (tileres_len > 0));
MemoryReadStream *readS = new MemoryReadStream(tileres_p, tileres_len);
readS->readUint16LE(); // skip
first_entry.tile_offset = readS->readUint16LE();
IsoModule.tile_ct = first_entry.tile_offset / SAGA_ISOTILE_ENTRY_LEN;
readS->seek(0);
tile_tbl = (R_ISOTILE_ENTRY *)malloc(IsoModule.tile_ct * sizeof *tile_tbl);
if (tile_tbl == NULL) {
return R_MEM;
}
for (i = 0; i < IsoModule.tile_ct; i++) {
tile_tbl[i].tile_h = readS->readByte();
tile_tbl[i].unknown01 = readS->readByte();
tile_tbl[i].tile_offset = readS->readUint16LE();
tile_tbl[i].unknown04 = readS->readSint16LE();
tile_tbl[i].unknown06 = readS->readSint16LE();
}
IsoModule.tiles_loaded = 1;
IsoModule.tile_tbl = tile_tbl;
IsoModule.tileres_p = tileres_p;
IsoModule.tileres_len = tileres_len;
return R_SUCCESS;
}
int ISOMAP_LoadMetaTileset(const byte *mtileres_p, size_t mtileres_len) {
R_ISO_METATILE_ENTRY *mtile_tbl;
uint16 mtile_ct;
uint16 ct;
int i;
assert(IsoModule.init);
assert((mtileres_p != NULL) && (mtileres_len > 0));
MemoryReadStream *readS = new MemoryReadStream(mtileres_p, mtileres_len);
mtile_ct = mtileres_len / SAGA_METATILE_ENTRY_LEN;
mtile_tbl = (R_ISO_METATILE_ENTRY *)malloc(mtile_ct * sizeof *mtile_tbl);
if (mtile_tbl == NULL) {
return R_MEM;
}
for (ct = 0; ct < mtile_ct; ct++) {
mtile_tbl[ct].mtile_n = readS->readUint16LE();
mtile_tbl[ct].unknown02 = readS->readSint16LE();
mtile_tbl[ct].unknown04 = readS->readSint16LE();
mtile_tbl[ct].unknown06 = readS->readSint16LE();
for (i = 0; i < SAGA_METATILE_SIZE; i++) {
mtile_tbl[ct].tile_tbl[i] = readS->readUint16LE();
}
}
IsoModule.mtile_ct = mtile_ct;
IsoModule.mtile_tbl = mtile_tbl;
IsoModule.mtileres_p = mtileres_p;
IsoModule.mtileres_len = mtileres_len;
IsoModule.mtiles_loaded = 1;
return R_SUCCESS;
}
int ISOMAP_LoadMetamap(const byte *mm_res_p, size_t mm_res_len) {
int i;
MemoryReadStream *readS = new MemoryReadStream(mm_res_p, mm_res_len);
IsoModule.metamap_n = readS->readSint16LE();
for (i = 0; i < SAGA_METAMAP_SIZE; i++) {
IsoModule.metamap_tbl[i] = readS->readUint16LE();
}
IsoModule.mm_res_p = mm_res_p;
IsoModule.mm_res_len = mm_res_len;
IsoModule.metamap_loaded = 1;
return R_SUCCESS;
}
int ISOMAP_Draw(R_SURFACE *dst_s) {
R_GAME_DISPLAYINFO disp_info;
GAME_GetDisplayInfo(&disp_info);
R_RECT iso_rect(disp_info.logical_w - 1, disp_info.scene_h - 1);
GFX_DrawRect(dst_s, &iso_rect, 0);
ISOMAP_DrawMetamap(dst_s, -1000, -500);
return R_SUCCESS;
}
int ISOMAP_DrawMetamap(R_SURFACE *dst_s, int map_x, int map_y) {
int meta_base_x = map_x;
int meta_base_y = map_y;
int meta_xi;
int meta_yi;
int meta_x;
int meta_y;
int meta_idx;
for (meta_yi = SAGA_METAMAP_H - 1; meta_yi >= 0; meta_yi--) {
meta_x = meta_base_x;
meta_y = meta_base_y;
for (meta_xi = SAGA_METAMAP_W - 1; meta_xi >= 0; meta_xi--) {
meta_idx = meta_xi + (meta_yi * 16);
ISOMAP_DrawMetaTile(dst_s, IsoModule.metamap_tbl[meta_idx], meta_x, meta_y);
meta_x += 128;
meta_y += 64;
}
meta_base_x -= 128;
meta_base_y += 64;
}
return R_SUCCESS;
}
int ISOMAP_DrawMetaTile(R_SURFACE *dst_s, uint16 mtile_i, int mtile_x, int mtile_y) {
int tile_xi;
int tile_yi;
int tile_x;
int tile_y;
int tile_base_x;
int tile_base_y;
int tile_i;
R_ISO_METATILE_ENTRY *mtile_p;
assert(IsoModule.init && IsoModule.mtiles_loaded);
if (mtile_i >= IsoModule.mtile_ct) {
return R_FAILURE;
}
mtile_p = &IsoModule.mtile_tbl[mtile_i];
tile_base_x = mtile_x;
tile_base_y = mtile_y;
for (tile_yi = SAGA_METATILE_H - 1; tile_yi >= 0; tile_yi--) {
tile_y = tile_base_y;
tile_x = tile_base_x;
for (tile_xi = SAGA_METATILE_W - 1; tile_xi >= 0; tile_xi--) {
tile_i = tile_xi + (tile_yi * SAGA_METATILE_W);
ISOMAP_DrawTile(dst_s, mtile_p->tile_tbl[tile_i], tile_x, tile_y);
tile_x += SAGA_ISOTILE_WIDTH / 2;
tile_y += SAGA_ISOTILE_BASEHEIGHT / 2 + 1;
}
tile_base_x -= SAGA_ISOTILE_WIDTH / 2;
tile_base_y += SAGA_ISOTILE_BASEHEIGHT / 2 + 1;
}
return R_SUCCESS;
}
int ISOMAP_DrawTile(R_SURFACE *dst_s, uint16 tile_i, int tile_x, int tile_y) {
const byte *tile_p;
const byte *read_p;
byte *draw_p;
int draw_x;
int draw_y;
int tile_h;
int w_count = 0;
int row;
int bg_runct;
int fg_runct;
int ct;
assert(IsoModule.init && IsoModule.tiles_loaded);
if (tile_i >= IsoModule.tile_ct) {
return R_FAILURE;
}
/* temporary x clip */
if (tile_x < 0) {
return R_SUCCESS;
}
/* temporary x clip */
if (tile_x >= 320 - 32) {
return R_SUCCESS;
}
tile_p = IsoModule.tileres_p + IsoModule.tile_tbl[tile_i].tile_offset;
tile_h = IsoModule.tile_tbl[tile_i].tile_h;
read_p = tile_p;
draw_p = dst_s->buf + tile_x + (tile_y * dst_s->buf_pitch);
draw_x = tile_x;
draw_y = tile_y;
if (tile_h > SAGA_ISOTILE_BASEHEIGHT) {
draw_y = tile_y - (tile_h - SAGA_ISOTILE_BASEHEIGHT);
}
// temporary y clip
if (draw_y < 0) {
return R_SUCCESS;
}
for (row = 0; row < tile_h; row++) {
draw_p = dst_s->buf + draw_x + ((draw_y + row) * dst_s->buf_pitch);
w_count = 0;
// temporary y clip
if ((draw_y + row) >= 137) {
return R_SUCCESS;
}
for (;;) {
bg_runct = *read_p++;
w_count += bg_runct;
if (w_count >= SAGA_ISOTILE_WIDTH) {
break;
}
draw_p += bg_runct;
fg_runct = *read_p++;
w_count += fg_runct;
for (ct = 0; ct < fg_runct; ct++) {
*draw_p++ = *read_p++;
}
}
}
return R_SUCCESS;
}
} // End of namespace Saga