diff --git a/ff5reader.py b/ff5reader.py index e605047..874cd17 100644 --- a/ff5reader.py +++ b/ff5reader.py @@ -187,7 +187,7 @@ class FF5Reader(QMainWindow): npc_layers[-1].append("0x{:0{}X}".format(val, z[1]*2)) j += z[1] - battle_strips = make_character_battle_sprites(ROM_en) + self.battle_strips = make_character_battle_sprites(ROM_en) self.tabwidget = QTabWidget() strings_tab = QTabWidget() @@ -203,7 +203,7 @@ class FF5Reader(QMainWindow): sprites_tab.addTab(make_pixmap_table(glyph_sprites_jp_small, scale=4), "Glyphs (JP)") sprites_tab.addTab(make_pixmap_table(glyph_sprites_jp_large, scale=2), "Glyphs (Large JP)") sprites_tab.addTab(make_pixmap_table(glyph_sprites_kanji, scale=2), "Glyphs (Kanji)") - sprites_tab.addTab(make_pixmap_table(battle_strips, cols=88), "Character Battle Sprites") + sprites_tab.addTab(make_pixmap_table(self.battle_strips, cols=22), "Character Battle Sprites") sprites_tab.addTab(self.enemy_sprites, "Enemy Sprites") structs_tab.addTab(make_table(zone_headers, zone_data, True), "Zones") @@ -229,15 +229,17 @@ def make_character_battle_sprites(rom): tile_address = 0x120000 palette_address = 0x14A3C0 battle_strips = [] - for i in range(88): - palette = generate_palette(rom, palette_address + (i*32)) + for i in range(0, 110*32, 32): + palette = generate_palette(rom, palette_address + i) + # We don't want the background drawn, so we'll make that colour transparent + palette[0] = 0 battle_strip = QImage(16, 192, QImage.Format_ARGB32_Premultiplied) battle_strip.fill(QColor(0,0,0,0)) painter = QtGui.QPainter(battle_strip) - for j in range(24): - offset = tile_address+(i*48*32)+(j*32) - painter.drawPixmap(j*8, 0, create_tile(rom[offset:offset+32], palette)) - painter.drawPixmap(j*8, 8, create_tile(rom[offset+32:offset+64], palette)) + for j in range(0, 24*8, 8): + offset = tile_address+(i*48)+(j*8) + painter.drawPixmap(0, j, create_tile(rom[offset:offset+32], palette)) + painter.drawPixmap(8, j, create_tile(rom[offset+32:offset+64], palette)) del painter battle_strips.append(QPixmap.fromImage(battle_strip)) return battle_strips @@ -385,6 +387,16 @@ def make_string_img_list(start, length, num, start_jp=None, len_jp=None, start_s stringlist.append(["0x{:06X}".format(j1), "0x{:0{}X}".format(id, id_digits), str_en, img_en, str_jp, img_jp]) return stringlist +def table_size_to_contents(table): + # Stupid hack to get table to size correctly + table.hide() + geometry = table.viewport().geometry() + table.viewport().setGeometry(QtCore.QRect(0, 0, 0x7FFFFFFF, 0x7FFFFFFF)) + table.resizeColumnsToContents() + table.resizeRowsToContents() + table.viewport().setGeometry(geometry) + table.show() + def make_table(headers, items, sortable=False, row_labels=True, scale=2): """ Helper function to tabulate 2d lists @@ -408,16 +420,7 @@ def make_table(headers, items, sortable=False, row_labels=True, scale=2): if item[:2] == "0x": q_item.setFont(monofont) table.setItem(row, col, q_item) - - # Stupid hack to get table to size correctly - table.hide() - geometry = table.viewport().geometry() - table.viewport().setGeometry(QtCore.QRect(0, 0, 0x7FFFFFFF, 0x7FFFFFFF)) - table.resizeColumnsToContents() - table.resizeRowsToContents() - table.viewport().setGeometry(geometry) - table.show() - + table_size_to_contents(table) if sortable: table.setSortingEnabled(True) table.sortItems(0) @@ -434,7 +437,7 @@ def make_pixmap_table(items, cols=16, scale=4): lab = QLabel() lab.setPixmap(item.scaled(item.size() * scale)) table.setCellWidget(i // cols, i % cols, lab) - table.resizeColumnsToContents() + table_size_to_contents(table) return table diff --git a/snestile.py b/snestile.py index 0d09479..de78e34 100644 --- a/snestile.py +++ b/snestile.py @@ -139,8 +139,11 @@ def generate_glyphs_large(rom, offset, num=0x100): spritelist.append(create_tritile(rom[j:j+24])) return spritelist -def generate_palette(rom, offset, length=16): - # Need to convert BGR555 to ARGB32 +def generate_palette(rom, offset, length=32): + ''' + Length is in bytes not colors (2 bytes per color) + We need to convert BGR555 to ARGB32 for each 2 bytes + ''' palette = [] for i in range(offset, offset+length, 2): if (i+2) < len(rom):