void JE_loadPic(SDL_Surface *screen, uint8_t PCXnumber, bool storepal )
{
PCXnumber--;
FILE *f = dir_fopen_die(data_dir(), "tyrian.pic", "rb");
static bool first = true;
if (first)
{
first = false;
uint16_t temp;
efread(&temp, sizeof(uint16_t), 1, f);
for (int i = 0; i < PCX_NUM; i++)
{
efread(&pcxpos[i], sizeof(int32_t), 1, f);
}
pcxpos[PCX_NUM] = ftell_eof(f);
}
uint32_t size = pcxpos[PCXnumber + 1] - pcxpos[PCXnumber];
uint8_t *buffer = malloc(size);
fseek(f, pcxpos[PCXnumber], SEEK_SET);
efread(buffer, sizeof(uint8_t), size, f);
fclose(f);
uint8_t *p = buffer;
uint8_t *s; /* screen pointer, 8-bit specific */
s = (uint8_t *)screen->pixels;
for (int i = 0; i < 320 * 200; )
{
if ((*p & 0xc0) == 0xc0)
{
i += (*p & 0x3f);
memset(s, *(p + 1), (*p & 0x3f));
s += (*p & 0x3f); p += 2;
} else {
i++;
*s = *p;
s++; p++;
}
if (i && (i % 320 == 0))
{
s += screen->pitch - 320;
}
}
free(buffer);
memcpy(colors, palettes[pcxpal[PCXnumber]], sizeof(colors));
if (storepal)
set_palette(colors, 0, 255);
}
void JE_loadCompShapes( Sprite2_array *sprite2s, char s )
{
char buffer[20];
snprintf(buffer, sizeof(buffer), "newsh%c.shp", tolower((unsigned char)s));
FILE *f = dir_fopen_die(data_dir(), buffer, "rb");
sprite2s->size = ftell_eof(f);
JE_loadCompShapesB(sprite2s, f);
fclose(f);
}
void JE_analyzeLevel( void )
{
FILE *f = dir_fopen_die(data_dir(), levelFile, "rb");
efread(&lvlNum, sizeof(JE_word), 1, f);
for (int x = 0; x < lvlNum; x++)
efread(&lvlPos[x], sizeof(JE_longint), 1, f);
lvlPos[lvlNum] = ftell_eof(f);
fclose(f);
}
void load_music( void )
{
if (music_file == NULL)
{
music_file = dir_fopen_die(data_dir(), "music.mus", "rb");
efread(&song_count, sizeof(song_count), 1, music_file);
song_offset = malloc((song_count + 1) * sizeof(song_offset));
efread(song_offset, 4, song_count, music_file);
song_offset[song_count] = ftell_eof(music_file);
}
}
cJSON *load_json( const char *filename )
{
FILE *f = dir_fopen_warn(get_user_directory(), filename, "rb");
if (f == NULL)
return NULL;
size_t buffer_len = ftell_eof(f);
char *buffer = malloc(buffer_len + 1);
fread(buffer, 1, buffer_len, f);
buffer[buffer_len] = '\0';
fclose(f);
cJSON *root = cJSON_Parse(buffer);
free(buffer);
return root;
}
void JE_loadConfiguration( void )
{
FILE *fi;
int z;
JE_byte *p;
int y;
fi = dir_fopen_warn(get_user_directory(), "tyrian.cfg", "rb");
if (fi && ftell_eof(fi) == 20 + sizeof(keySettings))
{
/* SYN: I've hardcoded the sizes here because the .CFG file format is fixed
anyways, so it's not like they'll change. */
background2 = 0;
efread(&background2, 1, 1, fi);
efread(&gameSpeed, 1, 1, fi);
efread(&inputDevice_, 1, 1, fi);
efread(&jConfigure, 1, 1, fi);
efread(&versionNum, 1, 1, fi);
efread(&processorType, 1, 1, fi);
efread(&midiPort, 1, 1, fi);
efread(&soundEffects, 1, 1, fi);
efread(&gammaCorrection, 1, 1, fi);
efread(&difficultyLevel, 1, 1, fi);
efread(joyButtonAssign, 1, 4, fi);
efread(&tyrMusicVolume, 2, 1, fi);
efread(&fxVolume, 2, 1, fi);
efread(inputDevice, 1, 2, fi);
efread(keySettings, sizeof(*keySettings), COUNTOF(keySettings), fi);
fclose(fi);
}
else
{
printf("\nInvalid or missing TYRIAN.CFG! Continuing using defaults.\n\n");
soundEffects = 1;
memcpy(&keySettings, &defaultKeySettings, sizeof(keySettings));
background2 = true;
tyrMusicVolume = fxVolume = 128;
gammaCorrection = 0;
processorType = 3;
gameSpeed = 4;
}
load_opentyrian_config();
if (tyrMusicVolume > 255)
tyrMusicVolume = 255;
if (fxVolume > 255)
fxVolume = 255;
JE_calcFXVol();
set_volume(tyrMusicVolume, fxVolume);
fi = dir_fopen_warn(get_user_directory(), "tyrian.sav", "rb");
if (fi)
{
fseek(fi, 0, SEEK_SET);
efread(saveTemp, 1, sizeof(saveTemp), fi);
JE_decryptSaveTemp();
/* SYN: The original mostly blasted the save file into raw memory. However, our lives are not so
easy, because the C struct is necessarily a different size. So instead we have to loop
through each record and load fields manually. *emo tear* :'( */
p = saveTemp;
for (z = 0; z < SAVE_FILES_NUM; z++)
{
memcpy(&saveFiles[z].encode, p, sizeof(JE_word)); p += 2;
saveFiles[z].encode = SDL_SwapLE16(saveFiles[z].encode);
memcpy(&saveFiles[z].level, p, sizeof(JE_word)); p += 2;
saveFiles[z].level = SDL_SwapLE16(saveFiles[z].level);
memcpy(&saveFiles[z].items, p, sizeof(JE_PItemsType)); p += sizeof(JE_PItemsType);
memcpy(&saveFiles[z].score, p, sizeof(JE_longint)); p += 4;
saveFiles[z].score = SDL_SwapLE32(saveFiles[z].score);
memcpy(&saveFiles[z].score2, p, sizeof(JE_longint)); p += 4;
saveFiles[z].score2 = SDL_SwapLE32(saveFiles[z].score2);
/* SYN: Pascal strings are prefixed by a byte holding the length! */
memset(&saveFiles[z].levelName, 0, sizeof(saveFiles[z].levelName));
memcpy(&saveFiles[z].levelName, &p[1], *p);
p += 10;
/* This was a BYTE array, not a STRING, in the original. Go fig. */
memcpy(&saveFiles[z].name, p, 14);
p += 14;
memcpy(&saveFiles[z].cubes, p, sizeof(JE_byte)); p++;
memcpy(&saveFiles[z].power, p, sizeof(JE_byte) * 2); p += 2;
memcpy(&saveFiles[z].episode, p, sizeof(JE_byte)); p++;
memcpy(&saveFiles[z].lastItems, p, sizeof(JE_PItemsType)); p += sizeof(JE_PItemsType);
memcpy(&saveFiles[z].difficulty, p, sizeof(JE_byte)); p++;
memcpy(&saveFiles[z].secretHint, p, sizeof(JE_byte)); p++;
memcpy(&saveFiles[z].input1, p, sizeof(JE_byte)); p++;
memcpy(&saveFiles[z].input2, p, sizeof(JE_byte)); p++;
/* booleans were 1 byte in pascal -- working around it */
Uint8 temp;
memcpy(&temp, p, 1); p++;
saveFiles[z].gameHasRepeated = temp != 0;
memcpy(&saveFiles[z].initialDifficulty, p, sizeof(JE_byte)); p++;
memcpy(&saveFiles[z].highScore1, p, sizeof(JE_longint)); p += 4;
saveFiles[z].highScore1 = SDL_SwapLE32(saveFiles[z].highScore1);
memcpy(&saveFiles[z].highScore2, p, sizeof(JE_longint)); p += 4;
saveFiles[z].highScore2 = SDL_SwapLE32(saveFiles[z].highScore2);
memset(&saveFiles[z].highScoreName, 0, sizeof(saveFiles[z].highScoreName));
memcpy(&saveFiles[z].highScoreName, &p[1], *p);
p += 30;
memcpy(&saveFiles[z].highScoreDiff, p, sizeof(JE_byte)); p++;
}
/* SYN: This is truncating to bytes. I have no idea what this is doing or why. */
/* TODO: Figure out what this is about and make sure it isn't broked. */
editorLevel = (saveTemp[SIZEOF_SAVEGAMETEMP - 5] << 8) | saveTemp[SIZEOF_SAVEGAMETEMP - 6];
fclose(fi);
} else {
/* We didn't have a save file! Let's make up random stuff! */
editorLevel = 800;
for (z = 0; z < 100; z++)
{
saveTemp[SAVE_FILES_SIZE + z] = initialItemAvail[z];
}
for (z = 0; z < SAVE_FILES_NUM; z++)
{
saveFiles[z].level = 0;
for (y = 0; y < 14; y++)
{
saveFiles[z].name[y] = ' ';
}
saveFiles[z].name[14] = 0;
saveFiles[z].highScore1 = ((mt_rand() % 20) + 1) * 1000;
if (z % 6 > 2)
{
saveFiles[z].highScore2 = ((mt_rand() % 20) + 1) * 1000;
strcpy(saveFiles[z].highScoreName, defaultTeamNames[mt_rand() % 22]);
} else {
strcpy(saveFiles[z].highScoreName, defaultHighScoreNames[mt_rand() % 34]);
}
}
}
JE_initProcessorType();
}
/* loadAnim opens the file and loads data from it into the header structs.
* It should take care to clean up after itself should an error occur.
*/
int JE_loadAnim( const char *filename )
{
uint32_t i, fileSize;
char temp[4];
Curlpnum = -1;
InFile = dir_fopen(data_dir(), filename, "rb");
if(InFile == NULL)
{
return(-1);
}
fileSize = ftell_eof(InFile);
if(fileSize < ANIM_OFFSET)
{
/* We don't know the exact size our file should be yet,
* but we do know it should be way more than this */
fclose(InFile);
return(-1);
}
/* Read in the header. The header is 256 bytes long or so,
* but that includes a lot of padding as well as several
* vars we really don't care about. We shall check the ID and extract
* the handful of vars we care about. Every value in the header that
* is constant will be ignored.
*/
efread(&temp, 1, 4, InFile); /* The ID, should equal "LPF " */
fseek(InFile, 2, SEEK_CUR); /* skip over this word */
efread(&FileHeader.nlps, 2, 1, InFile); /* Number of pages */
efread(&FileHeader.nRecords, 4, 1, InFile); /* Number of records */
if (memcmp(temp, "LPF ", 4) != 0
|| FileHeader.nlps == 0 || FileHeader.nRecords == 0
|| FileHeader.nlps > 256 || FileHeader.nRecords > 65535)
{
fclose(InFile);
return(-1);
}
/* Read in headers */
fseek(InFile, PAGEHEADER_OFFSET, SEEK_SET);
for (i = 0; i < FileHeader.nlps; i++)
{
efread(&PageHeader[i].baseRecord, 2, 1, InFile);
efread(&PageHeader[i].nRecords, 2, 1, InFile);
efread(&PageHeader[i].nBytes, 2, 1, InFile);
}
/* Now we have enough information to calculate the 'expected' file size.
* Our calculation SHOULD be equal to fileSize, but we won't begrudge
* padding */
if (fileSize < (FileHeader.nlps-1) * ANI_PAGE_SIZE + ANIM_OFFSET
+ PageHeader[FileHeader.nlps-1].nBytes
+ PageHeader[FileHeader.nlps-1].nRecords * 2 + 8)
{
fclose(InFile);
return(-1);
}
/* Now read in the palette. */
fseek(InFile, PALETTE_OFFSET, SEEK_SET);
for (i = 0; i < 256; i++)
{
efread(&colors[i].b, 1, 1, InFile);
efread(&colors[i].g, 1, 1, InFile);
efread(&colors[i].r, 1, 1, InFile);
efread(&colors[i].unused, 1, 1, InFile);
}
set_palette(colors, 0, 255);
/* Whew! That was hard. Let's go grab some beers! */
return(0);
}
