ref: 25984213e8b3e751e3bc5840c8ad13042ac21b42
dir: /src/pt2_module_loader.c/
// for finding memory leaks in debug mode with Visual Studio #if defined _DEBUG && defined _MSC_VER #include <crtdbg.h> #endif #include <stdio.h> #include <stdlib.h> #include <stdint.h> #include <stdbool.h> #ifdef _WIN32 #include <io.h> #else #include <unistd.h> #endif #include <fcntl.h> #include <sys/types.h> #include <sys/stat.h> #include "pt2_mouse.h" #include "pt2_header.h" #include "pt2_sampler.h" #include "pt2_textout.h" #include "pt2_audio.h" #include "pt2_helpers.h" #include "pt2_visuals.h" #include "pt2_unicode.h" #include "pt2_module_loader.h" #include "pt2_sample_loader.h" #include "pt2_config.h" typedef struct mem_t { bool _eof; uint8_t *_ptr, *_base; uint32_t _cnt, _bufsiz; } MEMFILE; static bool oldAutoPlay; static char oldFullPath[(PATH_MAX * 2) + 2]; static uint32_t oldFullPathLen; static MEMFILE *mopen(const uint8_t *src, uint32_t length); static void mclose(MEMFILE **buf); static int32_t mgetc(MEMFILE *buf); static size_t mread(void *buffer, size_t size, size_t count, MEMFILE *buf); static void mseek(MEMFILE *buf, int32_t offset, int32_t whence); static void mrewind(MEMFILE *buf); static uint8_t ppdecrunch(uint8_t *src, uint8_t *dst, uint8_t *offsetLens, uint32_t srcLen, uint32_t dstLen, uint8_t skipBits); void showSongUnsavedAskBox(int8_t askScreenType) { ui.askScreenShown = true; ui.askScreenType = askScreenType; pointerSetMode(POINTER_MODE_MSG1, NO_CARRY); setStatusMessage("SONG IS UNSAVED !", NO_CARRY); renderAskDialog(); } #define IS_ID(s, b) !strncmp(s, b, 4) static uint8_t getModType(uint8_t *numChannels, const char *id) { *numChannels = 4; if (IS_ID("M.K.", id) || IS_ID("M!K!", id) || IS_ID("NSMS", id) || IS_ID("LARD", id) || IS_ID("PATT", id)) { return FORMAT_MK; // ProTracker (or compatible) } else if (IS_ID("FLT4", id)) { return FORMAT_FLT; // Startrekker (4 channels) } else if (IS_ID("N.T.", id)) { return FORMAT_NT; // NoiseTracker } else if (IS_ID("M&K!", id) || IS_ID("FEST", id)) { return FORMAT_HMNT; // His Master's NoiseTracker } else if (id[1] == 'C' && id[2] == 'H' && id[3] == 'N') { *numChannels = id[0] - '0'; return FORMAT_FT2; // Fasttracker II 1..9 channels (or other trackers) } return FORMAT_UNKNOWN; // may be The Ultimate Soundtracker (set to FORMAT_STK later) } // converts zeroes to spaces in a string, up until the last zero found static void fixZeroesInString(char *str, uint32_t maxLength) { int32_t i; for (i = maxLength-1; i >= 0; i--) { if (str[i] != '\0') break; } // convert zeroes to spaces if (i > 0) { for (int32_t j = 0; j < i; j++) { if (str[j] == '\0') str[j] = ' '; } } } static uint8_t *unpackPPModule(FILE *f, uint32_t *filesize) { uint8_t *modBuffer, ppCrunchData[4], *ppBuffer; uint32_t ppPackLen, ppUnpackLen; ppPackLen = *filesize; if ((ppPackLen & 3) || ppPackLen <= 12) { displayErrorMsg("POWERPACKER ERROR"); return NULL; } ppBuffer = (uint8_t *)malloc(ppPackLen); if (ppBuffer == NULL) { statusOutOfMemory(); return NULL; } fseek(f, ppPackLen-4, SEEK_SET); ppCrunchData[0] = (uint8_t)fgetc(f); ppCrunchData[1] = (uint8_t)fgetc(f); ppCrunchData[2] = (uint8_t)fgetc(f); ppCrunchData[3] = (uint8_t)fgetc(f); ppUnpackLen = (ppCrunchData[0] << 16) | (ppCrunchData[1] << 8) | ppCrunchData[2]; modBuffer = (uint8_t *)malloc(ppUnpackLen); if (modBuffer == NULL) { free(ppBuffer); statusOutOfMemory(); return NULL; } rewind(f); fread(ppBuffer, 1, ppPackLen, f); fclose(f); if (!ppdecrunch(ppBuffer+8, modBuffer, ppBuffer+4, ppPackLen-12, ppUnpackLen, ppCrunchData[3])) { free(ppBuffer); displayErrorMsg("POWERPACKER ERROR"); return NULL; } free(ppBuffer); *filesize = ppUnpackLen; return modBuffer; } module_t *modLoad(UNICHAR *fileName) { bool mightBeSTK, lateSTKVerFlag, veryLateSTKVerFlag; char modID[4], tmpChar; int8_t numSamples; uint8_t bytes[4], restartPos, modFormat; uint8_t *modBuffer, numChannels; int32_t i, j, k, loopStart, loopLength, loopOverflowVal, numPatterns; uint32_t powerPackerID, filesize; FILE *f; MEMFILE *m; module_t *newMod; moduleSample_t *s; note_t *note; veryLateSTKVerFlag = false; // "DFJ SoundTracker III" and later lateSTKVerFlag = false; // "TJC SoundTracker II" and later mightBeSTK = false; m = NULL; f = NULL; modBuffer = NULL; newMod = (module_t *)calloc(1, sizeof (module_t)); if (newMod == NULL) { statusOutOfMemory(); goto modLoadError; } f = UNICHAR_FOPEN(fileName, "rb"); if (f == NULL) { displayErrorMsg("FILE I/O ERROR !"); goto modLoadError; } fseek(f, 0, SEEK_END); filesize = ftell(f); rewind(f); // check if mod is a powerpacker mod fread(&powerPackerID, 4, 1, f); if (powerPackerID == 0x30325850) // "PX20" { displayErrorMsg("ENCRYPTED MOD !"); goto modLoadError; } else if (powerPackerID == 0x30325050) // "PP20" { modBuffer = unpackPPModule(f, &filesize); if (modBuffer == NULL) goto modLoadError; // error msg is set in unpackPPModule() } else { modBuffer = (uint8_t *)malloc(filesize); if (modBuffer == NULL) { statusOutOfMemory(); goto modLoadError; } fseek(f, 0, SEEK_SET); fread(modBuffer, 1, filesize, f); fclose(f); } // smallest and biggest possible PT .MOD if (filesize < 2108 || filesize > 4195326) { displayErrorMsg("NOT A MOD FILE !"); goto modLoadError; } // Use MEMFILE functions on module buffer (similar to FILE functions) m = mopen(modBuffer, filesize); if (m == NULL) { displayErrorMsg("FILE I/O ERROR !"); goto modLoadError; } // check magic ID memset(modID, 0, 4); // in case mread fails mseek(m, 1080, SEEK_SET); mread(modID, 1, 4, m); modFormat = getModType(&numChannels, modID); if (numChannels == 0 || numChannels > AMIGA_VOICES) { displayErrorMsg("UNSUPPORTED MOD !"); goto modLoadError; } if (modFormat == FORMAT_UNKNOWN) mightBeSTK = true; mrewind(m); mread(newMod->header.name, 1, 20, m); newMod->header.name[20] = '\0'; // convert illegal song name characters to space for (i = 0; i < 20; i++) { tmpChar = newMod->header.name[i]; if ((tmpChar < ' ' || tmpChar > '~') && tmpChar != '\0') tmpChar = ' '; newMod->header.name[i] = tmpChar; } fixZeroesInString(newMod->header.name, 20); // read sample headers s = newMod->samples; for (i = 0; i < MOD_SAMPLES; i++, s++) { if (mightBeSTK && i >= 15) // skip reading sample headers past sample slot 15 in STK/UST modules { s->loopLength = 2; // this be set though continue; } mread(s->text, 1, 22, m); s->text[22] = '\0'; if (modFormat == FORMAT_HMNT) { // most of "His Master's Noisetracker" songs have junk sample names, so let's wipe it. memset(s->text, 0, 22); } else { // convert illegal sample name characters to space for (j = 0; j < 22; j++) { tmpChar = s->text[j]; if ((tmpChar < ' ' || tmpChar > '~') && tmpChar != '\0') tmpChar = ' '; s->text[j] = tmpChar; } fixZeroesInString(s->text, 22); } s->length = (uint16_t)(((mgetc(m) << 8) | mgetc(m)) * 2); /* Only late versions of Ultimate SoundTracker could have samples larger than 9999 bytes. ** If found, we know for sure that this is a late STK module. */ if (mightBeSTK && s->length > 9999) lateSTKVerFlag = true; if (modFormat == FORMAT_HMNT) // finetune in "His Master's NoiseTracker" is different s->fineTune = (uint8_t)((-mgetc(m) & 0x1F) / 2); // one more bit of precision, + inverted else s->fineTune = (uint8_t)mgetc(m) & 0xF; if (mightBeSTK) s->fineTune = 0; // this is high byte of volume in STK/UST (has no finetune), set to zero s->volume = (int8_t)mgetc(m); if ((uint8_t)s->volume > 64) s->volume = 64; loopStart = ((mgetc(m) << 8) | mgetc(m)) * 2; loopLength = ((mgetc(m) << 8) | mgetc(m)) * 2; if (loopLength < 2) loopLength = 2; // fixes empty samples in .MODs saved from FT2 // we don't support samples bigger than 65534 bytes, disable uncompatible loops if (loopStart > MAX_SAMPLE_LEN || loopStart+loopLength > MAX_SAMPLE_LEN) { s->loopStart = 0; s->loopLength = 2; } else { s->loopStart = (uint16_t)loopStart; s->loopLength = (uint16_t)loopLength; } // in The Ultimate SoundTracker, sample loop start is in bytes, not words if (mightBeSTK) s->loopStart /= 2; // fix for poorly converted STK (< v2.5) -> PT/NT modules (FIXME: Worth keeping or not?) if (!mightBeSTK && s->loopLength > 2 && s->loopStart+s->loopLength > s->length) { if ((s->loopStart/2) + s->loopLength <= s->length) s->loopStart /= 2; } } newMod->header.numOrders = (uint8_t)mgetc(m); if (modFormat == FORMAT_MK && newMod->header.numOrders == 129) newMod->header.numOrders = 127; // fixes a specific copy of beatwave.mod if (newMod->header.numOrders > 129) { displayErrorMsg("NOT A MOD FILE !"); goto modLoadError; } if (newMod->header.numOrders == 0) { displayErrorMsg("NOT A MOD FILE !"); goto modLoadError; } restartPos = (uint8_t)mgetc(m); if (mightBeSTK && restartPos > 220) { displayErrorMsg("NOT A MOD FILE !"); goto modLoadError; } newMod->header.initialTempo = 125; if (mightBeSTK) { /* If we're still here at this point and the mightBeSTK flag is set, ** then it's most likely a proper The Ultimate SoundTracker (STK/UST) module. */ modFormat = FORMAT_STK; if (restartPos == 0) restartPos = 120; // jjk55.mod by Jesper Kyd has a bogus STK tempo value that should be ignored if (!strcmp("jjk55", newMod->header.name)) restartPos = 120; // the "restart pos" field in STK is the inital tempo (must be converted to BPM first) if (restartPos != 120) // 120 is a special case and means 50Hz (125BPM) { if (restartPos > 220) restartPos = 220; // convert UST tempo to BPM uint16_t ciaPeriod = (240 - restartPos) * 122; double dHz = (double)CIA_PAL_CLK / ciaPeriod; int32_t BPM = (int32_t)((dHz * (125.0 / 50.0)) + 0.5); newMod->header.initialTempo = (uint16_t)BPM; } } // read orders and count number of patterns numPatterns = 0; for (i = 0; i < MOD_ORDERS; i++) { newMod->header.order[i] = (int16_t)mgetc(m); if (newMod->header.order[i] > numPatterns) numPatterns = newMod->header.order[i]; } numPatterns++; if (numPatterns > MAX_PATTERNS) { displayErrorMsg("UNSUPPORTED MOD !"); goto modLoadError; } // skip magic ID (The Ultimate SoundTracker MODs doesn't have it) if (modFormat != FORMAT_STK) mseek(m, 4, SEEK_CUR); // allocate 100 patterns for (i = 0; i < MAX_PATTERNS; i++) { newMod->patterns[i] = (note_t *)calloc(MOD_ROWS * AMIGA_VOICES, sizeof (note_t)); if (newMod->patterns[i] == NULL) { statusOutOfMemory(); goto modLoadError; } } // load pattern data for (i = 0; i < numPatterns; i++) { note = newMod->patterns[i]; for (j = 0; j < MOD_ROWS; j++) { for (k = 0; k < numChannels; k++, note++) { mread(bytes, 1, 4, m); note->period = ((bytes[0] & 0x0F) << 8) | bytes[1]; note->sample = (bytes[0] & 0xF0) | (bytes[2] >> 4); note->command = bytes[2] & 0x0F; note->param = bytes[3]; if (modFormat == FORMAT_STK) { if (note->command == 0xC || note->command == 0xD || note->command == 0xE) { // "TJC SoundTracker II" and later lateSTKVerFlag = true; } if (note->command == 0xF) { // "DFJ SoundTracker III" and later lateSTKVerFlag = true; veryLateSTKVerFlag = true; } } } if (numChannels < AMIGA_VOICES) note += AMIGA_VOICES-numChannels; } } // pattern command conversion for non-PT formats if (modFormat == FORMAT_STK || modFormat == FORMAT_FT2 || modFormat == FORMAT_NT || modFormat == FORMAT_HMNT || modFormat == FORMAT_FLT) { for (i = 0; i < numPatterns; i++) { note = newMod->patterns[i]; for (j = 0; j < MOD_ROWS*4; j++, note++) { if (modFormat == FORMAT_NT || modFormat == FORMAT_HMNT) { // any Dxx == D00 in NT/HMNT if (note->command == 0xD) note->param = 0; // effect F with param 0x00 does nothing in NT/HMNT if (note->command == 0xF && note->param == 0) note->command = 0; } else if (modFormat == FORMAT_FLT) // Startrekker (4 channels) { if (note->command == 0xE) // remove unsupported "assembly macros" command { note->command = 0; note->param = 0; } // Startrekker is always in vblank mode, and limits speed to 0x1F if (note->command == 0xF && note->param > 0x1F) note->param = 0x1F; } else if (modFormat == FORMAT_STK) { // convert STK effects to PT effects if (!lateSTKVerFlag) { // old SoundTracker 1.x commands if (note->command == 1) { // arpeggio note->command = 0; } else if (note->command == 2) { // pitch slide if (note->param & 0xF0) { // pitch slide down note->command = 2; note->param >>= 4; } else if (note->param & 0x0F) { // pitch slide up note->command = 1; } } } else { // "DFJ SoundTracker II" or later // TODO: This needs more detection and is NOT correct! if (note->command == 0xD) { if (veryLateSTKVerFlag) // "DFJ SoundTracker III" or later { // pattern break w/ no param (param must be cleared to fix some songs) note->param = 0; } else { // volume slide note->command = 0xA; } } } // effect F with param 0x00 does nothing in UST/STK (I think?) if (note->command == 0xF && note->param == 0) note->command = 0; } // remove sample-trashing effects that were only present in ProTracker // remove E8x (Karplus-Strong in ProTracker) if (note->command == 0xE && (note->param >> 4) == 0x8) { note->command = 0; note->param = 0; } // remove EFx (Invert Loop in ProTracker) if (note->command == 0xE && (note->param >> 4) == 0xF) { note->command = 0; note->param = 0; } } } } // allocate sample data (+2 sample slots for overflow safety (Paula and scopes)) newMod->sampleData = (int8_t *)calloc(MOD_SAMPLES + 2, MAX_SAMPLE_LEN); if (newMod->sampleData == NULL) { statusOutOfMemory(); goto modLoadError; } // set sample data offsets (sample data = one huge buffer to rule them all) for (i = 0; i < MOD_SAMPLES; i++) newMod->samples[i].offset = MAX_SAMPLE_LEN * i; // load sample data numSamples = (modFormat == FORMAT_STK) ? 15 : 31; s = newMod->samples; for (i = 0; i < numSamples; i++, s++) { uint32_t bytesToSkip = 0; /* For Ultimate SoundTracker modules, only the loop area of a looped sample is played. ** Skip loading of eventual data present before loop start. */ if (modFormat == FORMAT_STK && s->loopStart > 0 && s->loopLength < s->length) { s->length -= s->loopStart; mseek(m, s->loopStart, SEEK_CUR); s->loopStart = 0; } /* We don't support loading samples bigger than 65534 bytes in our PT2 clone, ** so clamp length and skip overflown data. */ if (s->length > MAX_SAMPLE_LEN) { s->length = MAX_SAMPLE_LEN; bytesToSkip = s->length - MAX_SAMPLE_LEN; } // For Ultimate SoundTracker modules, don't load sample data after loop end uint16_t loopEnd = s->loopStart + s->loopLength; if (modFormat == FORMAT_STK && loopEnd > 2 && s->length > loopEnd) { bytesToSkip += s->length-loopEnd; s->length = loopEnd; } mread(&newMod->sampleData[s->offset], 1, s->length, m); if (bytesToSkip > 0) mseek(m, bytesToSkip, SEEK_CUR); // clear first two bytes of non-looping samples to prevent beep after sample has been played if (s->length >= 2 && loopEnd <= 2) { newMod->sampleData[s->offset+0] = 0; newMod->sampleData[s->offset+1] = 0; } // some modules are broken like this, adjust sample length if possible (this is ok if we have room) if (s->length > 0 && s->loopLength > 2 && s->loopStart+s->loopLength > s->length) { loopOverflowVal = (s->loopStart + s->loopLength) - s->length; if (s->length+loopOverflowVal <= MAX_SAMPLE_LEN) { s->length = (uint16_t)(s->length + loopOverflowVal); // this is safe, we're allocating 65534 bytes per sample slot } else { s->loopStart = 0; s->loopLength = 2; } } } mclose(&m); free(modBuffer); for (i = 0; i < AMIGA_VOICES; i++) newMod->channels[i].n_chanindex = (int8_t)i; return newMod; modLoadError: if (m != NULL) mclose(&m); if (modBuffer != NULL) free(modBuffer); if (newMod != NULL) { for (i = 0; i < MAX_PATTERNS; i++) { if (newMod->patterns[i] != NULL) free(newMod->patterns[i]); } free(newMod); } return NULL; } static MEMFILE *mopen(const uint8_t *src, uint32_t length) { MEMFILE *b; if (src == NULL || length == 0) return NULL; b = (MEMFILE *)malloc(sizeof (MEMFILE)); if (b == NULL) return NULL; b->_base = (uint8_t *)src; b->_ptr = (uint8_t *)src; b->_cnt = length; b->_bufsiz = length; b->_eof = false; return b; } static void mclose(MEMFILE **buf) { if (*buf != NULL) { free(*buf); *buf = NULL; } } static int32_t mgetc(MEMFILE *buf) { int32_t b; if (buf == NULL || buf->_ptr == NULL || buf->_cnt <= 0) return 0; b = *buf->_ptr; buf->_cnt--; buf->_ptr++; if (buf->_cnt <= 0) { buf->_ptr = buf->_base + buf->_bufsiz; buf->_cnt = 0; buf->_eof = true; } return (int32_t)b; } static size_t mread(void *buffer, size_t size, size_t count, MEMFILE *buf) { int32_t pcnt; size_t wrcnt; if (buf == NULL || buf->_ptr == NULL) return 0; wrcnt = size * count; if (size == 0 || buf->_eof) return 0; pcnt = (buf->_cnt > (uint32_t)wrcnt) ? (uint32_t)wrcnt : buf->_cnt; memcpy(buffer, buf->_ptr, pcnt); buf->_cnt -= pcnt; buf->_ptr += pcnt; if (buf->_cnt <= 0) { buf->_ptr = buf->_base + buf->_bufsiz; buf->_cnt = 0; buf->_eof = true; } return pcnt / size; } static void mseek(MEMFILE *buf, int32_t offset, int32_t whence) { if (buf == NULL) return; if (buf->_base) { switch (whence) { case SEEK_SET: buf->_ptr = buf->_base + offset; break; case SEEK_CUR: buf->_ptr += offset; break; case SEEK_END: buf->_ptr = buf->_base + buf->_bufsiz + offset; break; default: break; } buf->_eof = false; if (buf->_ptr >= buf->_base+buf->_bufsiz) { buf->_ptr = buf->_base + buf->_bufsiz; buf->_eof = true; } buf->_cnt = (uint32_t)((buf->_base + buf->_bufsiz) - buf->_ptr); } } static void mrewind(MEMFILE *buf) { mseek(buf, 0, SEEK_SET); } /* PowerPacker unpack code taken from Heikki Orsila's amigadepack. Seems to have no license, ** so I'll assume it fits into BSD 3-Clause. If not, feel free to contact me at my email ** address found at the bottom of 16-bits.org. ** ** Modified by 8bitbubsy (me). */ #define PP_READ_BITS(nbits, var) \ bitCnt = (nbits); \ while (bitsLeft < bitCnt) \ { \ if (bufSrc < src) \ return false; \ bitBuffer |= ((*--bufSrc) << bitsLeft); \ bitsLeft += 8; \ } \ (var) = 0; \ bitsLeft -= bitCnt; \ while (bitCnt--) \ { \ (var) = ((var) << 1) | (bitBuffer & 1); \ bitBuffer >>= 1; \ } \ static uint8_t ppdecrunch(uint8_t *src, uint8_t *dst, uint8_t *offsetLens, uint32_t srcLen, uint32_t dstLen, uint8_t skipBits) { uint8_t *bufSrc, *dstEnd, *out, bitsLeft, bitCnt; uint32_t x, todo, offBits, offset, written, bitBuffer; if (src == NULL || dst == NULL || offsetLens == NULL) return false; bitsLeft = 0; bitBuffer = 0; written = 0; bufSrc = src + srcLen; out = dst + dstLen; dstEnd = out; PP_READ_BITS(skipBits, x); while (written < dstLen) { PP_READ_BITS(1, x); if (x == 0) { todo = 1; do { PP_READ_BITS(2, x); todo += x; } while (x == 3); while (todo--) { PP_READ_BITS(8, x); if (out <= dst) return false; *--out = (uint8_t)x; written++; } if (written == dstLen) break; } PP_READ_BITS(2, x); offBits = offsetLens[x]; todo = x + 2; if (x == 3) { PP_READ_BITS(1, x); if (x == 0) offBits = 7; PP_READ_BITS((uint8_t)offBits, offset); do { PP_READ_BITS(3, x); todo += x; } while (x == 7); } else { PP_READ_BITS((uint8_t)offBits, offset); } if (out+offset >= dstEnd) return false; while (todo--) { x = out[offset]; if (out <= dst) return false; *--out = (uint8_t)x; written++; } } return true; } void setupNewMod(void) { int8_t i; // setup GUI text pointers for (i = 0; i < MOD_SAMPLES; i++) { song->samples[i].volumeDisp = &song->samples[i].volume; song->samples[i].lengthDisp = &song->samples[i].length; song->samples[i].loopStartDisp = &song->samples[i].loopStart; song->samples[i].loopLengthDisp = &song->samples[i].loopLength; fillSampleRedoBuffer(i); } modSetPos(0, 0); modSetPattern(0); // set pattern to 00 instead of first order's pattern editor.currEditPatternDisp = &song->currPattern; editor.currPosDisp = &song->currOrder; editor.currPatternDisp = &song->header.order[0]; editor.currPosEdPattDisp = &song->header.order[0]; editor.currLengthDisp = &song->header.numOrders; // calculate MOD size ui.updateSongSize = true; editor.muted[0] = false; editor.muted[1] = false; editor.muted[2] = false; editor.muted[3] = false; editor.editMoveAdd = 1; editor.currSample = 0; editor.musicTime = 0; editor.modLoaded = true; editor.blockMarkFlag = false; editor.sampleZero = false; editor.hiLowInstr = 0; setLEDFilter(false); // real PT doesn't do this, but that's insane updateWindowTitle(MOD_NOT_MODIFIED); editor.timingMode = TEMPO_MODE_CIA; modSetSpeed(6); modSetTempo(song->header.initialTempo); // 125 for normal MODs, custom value for certain STK/UST MODs updateCurrSample(); editor.samplePos = 0; updateSamplePos(); } void loadModFromArg(char *arg) { uint32_t filenameLen; UNICHAR *filenameU; ui.introScreenShown = false; statusAllRight(); filenameLen = (uint32_t)strlen(arg); filenameU = (UNICHAR *)calloc(filenameLen + 2, sizeof (UNICHAR)); if (filenameU == NULL) { statusOutOfMemory(); return; } #ifdef _WIN32 MultiByteToWideChar(CP_UTF8, 0, arg, -1, filenameU, filenameLen); #else strcpy(filenameU, arg); #endif module_t *newSong = modLoad(filenameU); if (newSong != NULL) { song->loaded = false; modFree(); song = newSong; setupNewMod(); song->loaded = true; } else { editor.errorMsgActive = true; editor.errorMsgBlock = true; editor.errorMsgCounter = 0; // status/error message is set in the mod loader setErrPointer(); } free(filenameU); } static bool testExtension(char *ext, uint8_t extLen, char *fullPath) { // checks for EXT.filename and filename.EXT char *fileName, begStr[8], endStr[8]; uint32_t fileNameLen; extLen++; // add one to length (dot) fileName = strrchr(fullPath, DIR_DELIMITER); if (fileName != NULL) fileName++; else fileName = fullPath; fileNameLen = (uint32_t)strlen(fileName); if (fileNameLen >= extLen) { sprintf(begStr, "%s.", ext); if (!_strnicmp(begStr, fileName, extLen)) return true; sprintf(endStr, ".%s", ext); if (!_strnicmp(endStr, fileName + (fileNameLen - extLen), extLen)) return true; } return false; } void loadDroppedFile(char *fullPath, uint32_t fullPathLen, bool autoPlay, bool songModifiedCheck) { bool isMod; char *fileName, *ansiName; uint8_t oldMode, oldPlayMode; UNICHAR *fullPathU; // don't allow drag n' drop if the tracker is busy if (ui.pointerMode == POINTER_MODE_MSG1 || diskop.isFilling || editor.isWAVRendering || ui.samplerFiltersBoxShown || ui.samplerVolBoxShown) { return; } ansiName = (char *)calloc(fullPathLen + 10, sizeof (char)); if (ansiName == NULL) { statusOutOfMemory(); return; } fullPathU = (UNICHAR *)calloc(fullPathLen + 2, sizeof (UNICHAR)); if (fullPathU == NULL) { free(ansiName); statusOutOfMemory(); return; } #ifdef _WIN32 MultiByteToWideChar(CP_UTF8, 0, fullPath, -1, fullPathU, fullPathLen); #else strcpy(fullPathU, fullPath); #endif unicharToAnsi(ansiName, fullPathU, fullPathLen); // make a new pointer point to filename (strip path) fileName = strrchr(ansiName, DIR_DELIMITER); if (fileName != NULL) fileName++; else fileName = ansiName; // check if the file extension is a module (FIXME: check module by content instead..?) isMod = false; if (testExtension("MOD", 3, fileName)) isMod = true; else if (testExtension("M15", 3, fileName)) isMod = true; else if (testExtension("STK", 3, fileName)) isMod = true; else if (testExtension("NST", 3, fileName)) isMod = true; else if (testExtension("UST", 3, fileName)) isMod = true; else if (testExtension("PP", 2, fileName)) isMod = true; else if (testExtension("NT", 2, fileName)) isMod = true; if (isMod) { if (songModifiedCheck && song->modified) { free(ansiName); free(fullPathU); memcpy(oldFullPath, fullPath, fullPathLen); oldFullPath[fullPathLen+0] = 0; oldFullPath[fullPathLen+1] = 0; oldFullPathLen = fullPathLen; oldAutoPlay = autoPlay; // de-minimize window and set focus so that the user sees the message box SDL_RestoreWindow(video.window); SDL_RaiseWindow(video.window); showSongUnsavedAskBox(ASK_DISCARD_SONG_DRAGNDROP); return; } module_t *newSong = modLoad(fullPathU); if (newSong != NULL) { oldMode = editor.currMode; oldPlayMode = editor.playMode; modStop(); modFree(); song = newSong; setupNewMod(); song->loaded = true; statusAllRight(); if (autoPlay) { editor.playMode = PLAY_MODE_NORMAL; editor.currMode = MODE_PLAY; // start normal playback modPlay(DONT_SET_PATTERN, 0, 0); pointerSetMode(POINTER_MODE_PLAY, DO_CARRY); } else if (oldMode == MODE_PLAY || oldMode == MODE_RECORD) { // use last mode editor.playMode = oldPlayMode; if (oldPlayMode == PLAY_MODE_PATTERN || oldMode == MODE_RECORD) modPlay(0, 0, 0); else modPlay(DONT_SET_PATTERN, 0, 0); editor.currMode = oldMode; if (oldMode == MODE_RECORD) pointerSetMode(POINTER_MODE_RECORD, DO_CARRY); else pointerSetMode(POINTER_MODE_PLAY, DO_CARRY); } else { // stop playback editor.playMode = PLAY_MODE_NORMAL; editor.currMode = MODE_IDLE; editor.songPlaying = false; pointerSetMode(POINTER_MODE_IDLE, DO_CARRY); } displayMainScreen(); } else { editor.errorMsgActive = true; editor.errorMsgBlock = true; editor.errorMsgCounter = 0; setErrPointer(); // status/error message is set in the mod loader } } else { loadSample(fullPathU, fileName); } free(ansiName); free(fullPathU); } void loadDroppedFile2(void) { loadDroppedFile(oldFullPath, oldFullPathLen, oldAutoPlay, false); } module_t *createNewMod(void) { uint8_t i; module_t *newMod; newMod = (module_t *)calloc(1, sizeof (module_t)); if (newMod == NULL) goto oom; for (i = 0; i < MAX_PATTERNS; i++) { newMod->patterns[i] = (note_t *)calloc(1, MOD_ROWS * sizeof (note_t) * AMIGA_VOICES); if (newMod->patterns[i] == NULL) goto oom; } // +2 sample slots for overflow safety (Paula and scopes) newMod->sampleData = (int8_t *)calloc(MOD_SAMPLES + 2, MAX_SAMPLE_LEN); if (newMod->sampleData == NULL) goto oom; newMod->header.numOrders = 1; for (i = 0; i < MOD_SAMPLES; i++) { newMod->samples[i].offset = MAX_SAMPLE_LEN * i; newMod->samples[i].loopLength = 2; // setup GUI text pointers newMod->samples[i].volumeDisp = &newMod->samples[i].volume; newMod->samples[i].lengthDisp = &newMod->samples[i].length; newMod->samples[i].loopStartDisp = &newMod->samples[i].loopStart; newMod->samples[i].loopLengthDisp = &newMod->samples[i].loopLength; } for (i = 0; i < AMIGA_VOICES; i++) newMod->channels[i].n_chanindex = i; // setup GUI text pointers editor.currEditPatternDisp = &newMod->currPattern; editor.currPosDisp = &newMod->currOrder; editor.currPatternDisp = &newMod->header.order[0]; editor.currPosEdPattDisp = &newMod->header.order[0]; editor.currLengthDisp = &newMod->header.numOrders; ui.updateSongSize = true; return newMod; oom: showErrorMsgBox("Out of memory!"); return NULL; }