/* * gus_pat.c -- Midi Wavetable Processing library * * Copyright (C) WildMIDI Developers 2001-2015 * * This file is part of WildMIDI. * * WildMIDI is free software: you can redistribute and/or modify the player * under the terms of the GNU General Public License and you can redistribute * and/or modify the library under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation, either version 3 of * the licenses, or(at your option) any later version. * * WildMIDI 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 and * the GNU Lesser General Public License for more details. * * You should have received a copy of the GNU General Public License and the * GNU Lesser General Public License along with WildMIDI. If not, see * . */ #include #include #include #include #include "gus_pat.h" #include "common.h" #include "wm_error.h" #include "file_io.h" #include "wildmidi_lib.h" namespace WildMidi { /* Guspat Envelope Rate Timings */ float env_time_table[] = { /* Row 1 = (4095.0 / (x * ( 1.0 / (1.6 * 14.0) ))) / 1000000.0 */ 0.0f, 0.091728000f, 0.045864000f, 0.030576000f, 0.022932000f, 0.018345600f, 0.015288000f, 0.013104000f, 0.011466000f, 0.010192000f, 0.009172800f, 0.008338909f, 0.007644000f, 0.007056000f, 0.006552000f, 0.006115200f, 0.005733000f, 0.005395765f, 0.005096000f, 0.004827789f, 0.004586400f, 0.004368000f, 0.004169455f, 0.003988174f, 0.003822000f, 0.003669120f, 0.003528000f, 0.003397333f, 0.003276000f, 0.003163034f, 0.003057600f, 0.002958968f, 0.002866500f, 0.002779636f, 0.002697882f, 0.002620800f, 0.002548000f, 0.002479135f, 0.002413895f, 0.002352000f, 0.002293200f, 0.002237268f, 0.002184000f, 0.002133209f, 0.002084727f, 0.002038400f, 0.001994087f, 0.001951660f, 0.001911000f, 0.001872000f, 0.001834560f, 0.001798588f, 0.001764000f, 0.001730717f, 0.001698667f, 0.001667782f, 0.001638000f, 0.001609263f, 0.001581517f, 0.001554712f, 0.001528800f, 0.001503738f, 0.001479484f, 0.001456000f, /* Row 2 = (4095.0 / (x * ((1.0 / (1.6 * 14.0)) / 8.0 ))) / 1000000.0 */ 0.0f, 0.733824000f, 0.366912000f, 0.244608000f, 0.183456000f, 0.146764800f, 0.122304000f, 0.104832000f, 0.091728000f, 0.081536000f, 0.073382400f, 0.066711273f, 0.061152000f, 0.056448000f, 0.052416000f, 0.048921600f, 0.045864000f, 0.043166118f, 0.040768000f, 0.038622316f, 0.036691200f, 0.034944000f, 0.033355636f, 0.031905391f, 0.030576000f, 0.029352960f, 0.028224000f, 0.027178667f, 0.026208000f, 0.025304276f, 0.024460800f, 0.023671742f, 0.022932000f, 0.022237091f, 0.021583059f, 0.020966400f, 0.020384000f, 0.019833081f, 0.019311158f, 0.018816000f, 0.018345600f, 0.017898146f, 0.017472000f, 0.017065674f, 0.016677818f, 0.016307200f, 0.015952696f, 0.015613277f, 0.015288000f, 0.014976000f, 0.014676480f, 0.014388706f, 0.014112000f, 0.013845736f, 0.013589333f, 0.013342255f, 0.013104000f, 0.012874105f, 0.012652138f, 0.012437695f, 0.012230400f, 0.012029902f, 0.011835871f, 0.011648000f, /* Row 3 = (4095.0 / (x * ((1.0 / (1.6 * 14.0)) / 64.0 ))) / 1000000.0 */ 0.0f, 5.870592000f, 2.935296000f, 1.956864000f, 1.467648000f, 1.174118400f, 0.978432000f, 0.838656000f, 0.733824000f, 0.652288000f, 0.587059200f, 0.533690182f, 0.489216000f, 0.451584000f, 0.419328000f, 0.391372800f, 0.366912000f, 0.345328941f, 0.326144000f, 0.308978526f, 0.293529600f, 0.279552000f, 0.266845091f, 0.255243130f, 0.244608000f, 0.234823680f, 0.225792000f, 0.217429333f, 0.209664000f, 0.202434207f, 0.195686400f, 0.189373935f, 0.183456000f, 0.177896727f, 0.172664471f, 0.167731200f, 0.163072000f, 0.158664649f, 0.154489263f, 0.150528000f, 0.146764800f, 0.143185171f, 0.139776000f, 0.136525395f, 0.133422545f, 0.130457600f, 0.127621565f, 0.124906213f, 0.122304000f, 0.119808000f, 0.117411840f, 0.115109647f, 0.112896000f, 0.110765887f, 0.108714667f, 0.106738036f, 0.104832000f, 0.102992842f, 0.101217103f, 0.099501559f, 0.097843200f, 0.096239213f, 0.094686968f, 0.093184000f, /* Row 4 = (4095.0 / (x * ((1.0 / (1.6 * 14.0)) / 512.0))) / 1000000.0 */ 0.0f, 46.964736000f,23.482368000f,15.654912000f,11.741184000f, 9.392947200f, 7.827456000f, 6.709248000f, 5.870592000f, 5.218304000f, 4.696473600f, 4.269521455f, 3.913728000f, 3.612672000f, 3.354624000f, 3.130982400f, 2.935296000f, 2.762631529f, 2.609152000f, 2.471828211f, 2.348236800f, 2.236416000f, 2.134760727f, 2.041945043f, 1.956864000f, 1.878589440f, 1.806336000f, 1.739434667f, 1.677312000f, 1.619473655f, 1.565491200f, 1.514991484f, 1.467648000f, 1.423173818f, 1.381315765f, 1.341849600f, 1.304576000f, 1.269317189f, 1.235914105f, 1.204224000f, 1.174118400f, 1.145481366f, 1.118208000f, 1.092203163f, 1.067380364f, 1.043660800f, 1.020972522f, 0.999249702f, 0.978432000f, 0.958464000f, 0.939294720f, 0.920877176f, 0.903168000f, 0.886127094f, 0.869717333f, 0.853904291f, 0.838656000f, 0.823942737f, 0.809736828f, 0.796012475f, 0.782745600f, 0.769913705f, 0.757495742f, 0.745472000f }; #ifdef DEBUG_GUSPAT #define GUSPAT_FILENAME_DEBUG(dx) fprintf(stderr,"\r%s\n",dx) #define GUSPAT_INT_DEBUG(dx,dy) fprintf(stderr,"\r%s: %i\n",dx,dy) #define GUSPAT_FLOAT_DEBUG(dx,dy) fprintf(stderr,"\r%s: %f\n",dx,dy) #define GUSPAT_START_DEBUG() fprintf(stderr,"\r") #define GUSPAT_MODE_DEBUG(dx,dy,dz) if (dx & dy) fprintf(stderr,"%s",dz) #define GUSPAT_END_DEBUG() fprintf(stderr,"\n") #else #define GUSPAT_FILENAME_DEBUG(dx) #define GUSPAT_INT_DEBUG(dx,dy) #define GUSPAT_FLOAT_DEBUG(dx,dy) #define GUSPAT_START_DEBUG() #define GUSPAT_MODE_DEBUG(dx,dy,dz) #define GUSPAT_END_DEBUG() #endif #ifdef DEBUG_SAMPLES #define SAMPLE_CONVERT_DEBUG(dx) printf("\r%s\n",dx) #else #define SAMPLE_CONVERT_DEBUG(dx) #endif /* * sample data conversion functions * convert data to signed shorts */ /* 8bit signed */ static int convert_8s(unsigned char *data, struct _sample *gus_sample) { unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->data_length; signed short int *write_data = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc((gus_sample->data_length + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data++ = (*read_data++) << 8; } while (read_data != read_end); return 0; } _WM_ERROR_NEW("Calloc failed (%s)\n", strerror(errno)); return -1; } /* 8bit signed ping pong */ static int convert_8sp(unsigned char *data, struct _sample *gus_sample) { unsigned long int loop_length = gus_sample->loop_end - gus_sample->loop_start; unsigned long int dloop_length = loop_length * 2; unsigned long int new_length = gus_sample->data_length + dloop_length; unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->loop_start; signed short int *write_data = NULL; signed short int *write_data_a = NULL; signed short int *write_data_b = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc((new_length + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data++ = (*read_data++) << 8; } while (read_data != read_end); *write_data = (*read_data++ << 8); write_data_a = write_data + dloop_length; *write_data_a-- = *write_data; write_data++; write_data_b = write_data + dloop_length; read_end = data + gus_sample->loop_end; do { *write_data = (*read_data++) << 8; *write_data_a-- = *write_data; *write_data_b++ = *write_data; write_data++; } while (read_data != read_end); *write_data = (*read_data++ << 8); *write_data_b++ = *write_data; read_end = data + gus_sample->data_length; if (read_data != read_end) { do { *write_data_b++ = (*read_data++) << 8; } while (read_data != read_end); } gus_sample->loop_start += loop_length; gus_sample->loop_end += dloop_length; gus_sample->data_length = new_length; gus_sample->modes ^= SAMPLE_PINGPONG; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 8bit signed reverse */ static int convert_8sr(unsigned char *data, struct _sample *gus_sample) { unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->data_length; signed short int *write_data = NULL; unsigned long int tmp_loop = 0; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc((gus_sample->data_length + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data + gus_sample->data_length - 1; do { *write_data-- = (*read_data++) << 8; } while (read_data != read_end); tmp_loop = gus_sample->loop_end; gus_sample->loop_end = gus_sample->data_length - gus_sample->loop_start; gus_sample->loop_start = gus_sample->data_length - tmp_loop; gus_sample->loop_fraction = ((gus_sample->loop_fraction & 0x0f) << 4) | ((gus_sample->loop_fraction & 0xf0) >> 4); gus_sample->modes ^= SAMPLE_REVERSE; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 8bit signed reverse ping pong */ static int convert_8srp(unsigned char *data, struct _sample *gus_sample) { unsigned long int loop_length = gus_sample->loop_end - gus_sample->loop_start; unsigned long int dloop_length = loop_length * 2; unsigned long int new_length = gus_sample->data_length + dloop_length; unsigned char *read_data = data + gus_sample->data_length - 1; unsigned char *read_end = data + gus_sample->loop_end; signed short int *write_data = NULL; signed short int *write_data_a = NULL; signed short int *write_data_b = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc((new_length + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data++ = (*read_data--) << 8; } while (read_data != read_end); *write_data = (*read_data-- << 8); write_data_a = write_data + dloop_length; *write_data_a-- = *write_data; write_data++; write_data_b = write_data + dloop_length; read_end = data + gus_sample->loop_start; do { *write_data = (*read_data--) << 8; *write_data_a-- = *write_data; *write_data_b++ = *write_data; write_data++; } while (read_data != read_end); *write_data = (*read_data-- << 8); *write_data_b++ = *write_data; read_end = data - 1; do { *write_data_b++ = (*read_data--) << 8; write_data_b++; } while (read_data != read_end); gus_sample->loop_start += loop_length; gus_sample->loop_end += dloop_length; gus_sample->data_length = new_length; gus_sample->modes ^= SAMPLE_PINGPONG | SAMPLE_REVERSE; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 8bit unsigned */ static int convert_8u(unsigned char *data, struct _sample *gus_sample) { unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->data_length; signed short int *write_data = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc((gus_sample->data_length + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data++ = ((*read_data++) ^ 0x80) << 8; } while (read_data != read_end); gus_sample->modes ^= SAMPLE_UNSIGNED; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 8bit unsigned ping pong */ static int convert_8up(unsigned char *data, struct _sample *gus_sample) { unsigned long int loop_length = gus_sample->loop_end - gus_sample->loop_start; unsigned long int dloop_length = loop_length * 2; unsigned long int new_length = gus_sample->data_length + dloop_length; unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->loop_start; signed short int *write_data = NULL; signed short int *write_data_a = NULL; signed short int *write_data_b = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc((new_length + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data++ = ((*read_data++) ^ 0x80) << 8; } while (read_data != read_end); *write_data = ((*read_data++) ^ 0x80) << 8; write_data_a = write_data + dloop_length; *write_data_a-- = *write_data; write_data++; write_data_b = write_data + dloop_length; read_end = data + gus_sample->loop_end; do { *write_data = ((*read_data++) ^ 0x80) << 8; *write_data_a-- = *write_data; *write_data_b++ = *write_data; write_data++; } while (read_data != read_end); *write_data = ((*read_data++) ^ 0x80) << 8; *write_data_b++ = *write_data; read_end = data + gus_sample->data_length; if (read_data != read_end) { do { *write_data_b++ = ((*read_data++) ^ 0x80) << 8; } while (read_data != read_end); } gus_sample->loop_start += loop_length; gus_sample->loop_end += dloop_length; gus_sample->data_length = new_length; gus_sample->modes ^= SAMPLE_PINGPONG | SAMPLE_UNSIGNED; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 8bit unsigned reverse */ static int convert_8ur(unsigned char *data, struct _sample *gus_sample) { unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->data_length; signed short int *write_data = NULL; unsigned long int tmp_loop = 0; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc((gus_sample->data_length + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data + gus_sample->data_length - 1; do { *write_data-- = ((*read_data++) ^ 0x80) << 8; } while (read_data != read_end); tmp_loop = gus_sample->loop_end; gus_sample->loop_end = gus_sample->data_length - gus_sample->loop_start; gus_sample->loop_start = gus_sample->data_length - tmp_loop; gus_sample->loop_fraction = ((gus_sample->loop_fraction & 0x0f) << 4) | ((gus_sample->loop_fraction & 0xf0) >> 4); gus_sample->modes ^= SAMPLE_REVERSE | SAMPLE_UNSIGNED; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 8bit unsigned reverse ping pong */ static int convert_8urp(unsigned char *data, struct _sample *gus_sample) { unsigned long int loop_length = gus_sample->loop_end - gus_sample->loop_start; unsigned long int dloop_length = loop_length * 2; unsigned long int new_length = gus_sample->data_length + dloop_length; unsigned char *read_data = data + gus_sample->data_length - 1; unsigned char *read_end = data + gus_sample->loop_end; signed short int *write_data = NULL; signed short int *write_data_a = NULL; signed short int *write_data_b = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc((new_length + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data++ = ((*read_data--) ^ 0x80) << 8; } while (read_data != read_end); *write_data = ((*read_data--) ^ 0x80) << 8; write_data_a = write_data + dloop_length; *write_data_a-- = *write_data; write_data++; write_data_b = write_data + dloop_length; read_end = data + gus_sample->loop_start; do { *write_data = ((*read_data--) ^ 0x80) << 8; *write_data_a-- = *write_data; *write_data_b++ = *write_data; write_data++; } while (read_data != read_end); *write_data = ((*read_data--) ^ 0x80) << 8; *write_data_b++ = *write_data; read_end = data - 1; do { *write_data_b++ = ((*read_data--) ^ 0x80) << 8; } while (read_data != read_end); gus_sample->loop_start += loop_length; gus_sample->loop_end += dloop_length; gus_sample->data_length = new_length; gus_sample->modes ^= SAMPLE_PINGPONG | SAMPLE_REVERSE | SAMPLE_UNSIGNED; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 16bit signed */ static int convert_16s(unsigned char *data, struct _sample *gus_sample) { unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->data_length; signed short int *write_data = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc(((gus_sample->data_length >> 1) + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data = *read_data++; *write_data++ |= (*read_data++) << 8; } while (read_data < read_end); gus_sample->loop_start >>= 1; gus_sample->loop_end >>= 1; gus_sample->data_length >>= 1; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 16bit signed ping pong */ static int convert_16sp(unsigned char *data, struct _sample *gus_sample) { unsigned long int loop_length = gus_sample->loop_end - gus_sample->loop_start; unsigned long int dloop_length = loop_length * 2; unsigned long int new_length = gus_sample->data_length + dloop_length; unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->loop_start; signed short int *write_data = NULL; signed short int *write_data_a = NULL; signed short int *write_data_b = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc(((new_length >> 1) + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data = (*read_data++); *write_data++ |= (*read_data++) << 8; } while (read_data < read_end); *write_data = (*read_data++); *write_data |= (*read_data++) << 8; write_data_a = write_data + (dloop_length >> 1); *write_data_a-- = *write_data; write_data++; write_data_b = write_data + (dloop_length >> 1); read_end = data + gus_sample->loop_end; do { *write_data = (*read_data++); *write_data |= (*read_data++) << 8; *write_data_a-- = *write_data; *write_data_b++ = *write_data; write_data++; } while (read_data < read_end); *write_data = *(read_data++); *write_data |= (*read_data++) << 8; *write_data_b++ = *write_data; read_end = data + gus_sample->data_length; if (read_data != read_end) { do { *write_data_b = *(read_data++); *write_data_b++ |= (*read_data++) << 8; } while (read_data < read_end); } gus_sample->loop_start += loop_length; gus_sample->loop_end += dloop_length; gus_sample->data_length = new_length; gus_sample->modes ^= SAMPLE_PINGPONG; gus_sample->loop_start >>= 1; gus_sample->loop_end >>= 1; gus_sample->data_length >>= 1; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 16bit signed reverse */ static int convert_16sr(unsigned char *data, struct _sample *gus_sample) { unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->data_length; signed short int *write_data = NULL; unsigned long int tmp_loop = 0; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc(((gus_sample->data_length >> 1) + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data + (gus_sample->data_length >> 1) - 1; do { *write_data = *read_data++; *write_data-- |= (*read_data++) << 8; } while (read_data < read_end); tmp_loop = gus_sample->loop_end; gus_sample->loop_end = gus_sample->data_length - gus_sample->loop_start; gus_sample->loop_start = gus_sample->data_length - tmp_loop; gus_sample->loop_fraction = ((gus_sample->loop_fraction & 0x0f) << 4) | ((gus_sample->loop_fraction & 0xf0) >> 4); gus_sample->loop_start >>= 1; gus_sample->loop_end >>= 1; gus_sample->data_length >>= 1; gus_sample->modes ^= SAMPLE_REVERSE; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 16bit signed reverse ping pong */ static int convert_16srp(unsigned char *data, struct _sample *gus_sample) { unsigned long int loop_length = gus_sample->loop_end - gus_sample->loop_start; unsigned long int dloop_length = loop_length * 2; unsigned long int new_length = gus_sample->data_length + dloop_length; unsigned char *read_data = data + gus_sample->data_length - 1; unsigned char *read_end = data + gus_sample->loop_end; signed short int *write_data = NULL; signed short int *write_data_a = NULL; signed short int *write_data_b = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc(((new_length >> 1) + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data = (*read_data--) << 8; *write_data++ |= *read_data--; } while (read_data < read_end); *write_data = (*read_data-- << 8); *write_data |= *read_data--; write_data_a = write_data + (dloop_length >> 1); *write_data_a-- = *write_data; write_data++; write_data_b = write_data + (dloop_length >> 1); read_end = data + gus_sample->loop_start; do { *write_data = (*read_data--) << 8; *write_data |= *read_data--; *write_data_a-- = *write_data; *write_data_b++ = *write_data; write_data++; } while (read_data < read_end); *write_data = ((*read_data--) << 8); *write_data |= *read_data--; *write_data_b++ = *write_data; read_end = data - 1; do { *write_data_b = (*read_data--) << 8; *write_data_b++ |= *read_data--; } while (read_data < read_end); gus_sample->loop_start += loop_length; gus_sample->loop_end += dloop_length; gus_sample->data_length = new_length; gus_sample->modes ^= SAMPLE_PINGPONG | SAMPLE_REVERSE; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 16bit unsigned */ static int convert_16u(unsigned char *data, struct _sample *gus_sample) { unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->data_length; signed short int *write_data = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc(((gus_sample->data_length >> 1) + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data = *read_data++; *write_data++ |= ((*read_data++) ^ 0x80) << 8; } while (read_data < read_end); gus_sample->loop_start >>= 1; gus_sample->loop_end >>= 1; gus_sample->data_length >>= 1; gus_sample->modes ^= SAMPLE_UNSIGNED; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 16bit unsigned ping pong */ static int convert_16up(unsigned char *data, struct _sample *gus_sample) { unsigned long int loop_length = gus_sample->loop_end - gus_sample->loop_start; unsigned long int dloop_length = loop_length * 2; unsigned long int new_length = gus_sample->data_length + dloop_length; unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->loop_start; signed short int *write_data = NULL; signed short int *write_data_a = NULL; signed short int *write_data_b = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc(((new_length >> 1) + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data = (*read_data++); *write_data++ |= ((*read_data++) ^ 0x80) << 8; } while (read_data < read_end); *write_data = (*read_data++); *write_data |= ((*read_data++) ^ 0x80) << 8; write_data_a = write_data + (dloop_length >> 1); *write_data_a-- = *write_data; write_data++; write_data_b = write_data + (dloop_length >> 1); read_end = data + gus_sample->loop_end; do { *write_data = (*read_data++); *write_data |= ((*read_data++) ^ 0x80) << 8; *write_data_a-- = *write_data; *write_data_b++ = *write_data; write_data++; } while (read_data < read_end); *write_data = (*read_data++); *write_data |= ((*read_data++) ^ 0x80) << 8; *write_data_b++ = *write_data; read_end = data + gus_sample->data_length; if (read_data != read_end) { do { *write_data_b = (*read_data++); *write_data_b++ |= ((*read_data++) ^ 0x80) << 8; } while (read_data < read_end); } gus_sample->loop_start += loop_length; gus_sample->loop_end += dloop_length; gus_sample->data_length = new_length; gus_sample->modes ^= SAMPLE_PINGPONG; gus_sample->loop_start >>= 1; gus_sample->loop_end >>= 1; gus_sample->data_length >>= 1; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 16bit unsigned reverse */ static int convert_16ur(unsigned char *data, struct _sample *gus_sample) { unsigned char *read_data = data; unsigned char *read_end = data + gus_sample->data_length; signed short int *write_data = NULL; unsigned long int tmp_loop = 0; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc(((gus_sample->data_length >> 1) + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data + (gus_sample->data_length >> 1) - 1; do { *write_data = *read_data++; *write_data-- |= ((*read_data++) ^ 0x80) << 8; } while (read_data < read_end); tmp_loop = gus_sample->loop_end; gus_sample->loop_end = gus_sample->data_length - gus_sample->loop_start; gus_sample->loop_start = gus_sample->data_length - tmp_loop; gus_sample->loop_fraction = ((gus_sample->loop_fraction & 0x0f) << 4) | ((gus_sample->loop_fraction & 0xf0) >> 4); gus_sample->loop_start >>= 1; gus_sample->loop_end >>= 1; gus_sample->data_length >>= 1; gus_sample->modes ^= SAMPLE_REVERSE | SAMPLE_UNSIGNED; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* 16bit unsigned reverse ping pong */ static int convert_16urp(unsigned char *data, struct _sample *gus_sample) { unsigned long int loop_length = gus_sample->loop_end - gus_sample->loop_start; unsigned long int dloop_length = loop_length * 2; unsigned long int new_length = gus_sample->data_length + dloop_length; unsigned char *read_data = data + gus_sample->data_length - 1; unsigned char *read_end = data + gus_sample->loop_end; signed short int *write_data = NULL; signed short int *write_data_a = NULL; signed short int *write_data_b = NULL; SAMPLE_CONVERT_DEBUG(__FUNCTION__); gus_sample->data = (short*)calloc(((new_length >> 1) + 2), sizeof(signed short int)); if (gus_sample->data != NULL) { write_data = gus_sample->data; do { *write_data = ((*read_data--) ^ 0x80) << 8; *write_data++ |= *read_data--; } while (read_data < read_end); *write_data = ((*read_data--) ^ 0x80) << 8; *write_data |= *read_data--; write_data_a = write_data + (dloop_length >> 1); *write_data_a-- = *write_data; write_data++; write_data_b = write_data + (dloop_length >> 1); read_end = data + gus_sample->loop_start; do { *write_data = ((*read_data--) ^ 0x80) << 8; *write_data |= *read_data--; *write_data_a-- = *write_data; *write_data_b++ = *write_data; write_data++; } while (read_data < read_end); *write_data = ((*read_data--) ^ 0x80) << 8; *write_data |= *read_data--; *write_data_b++ = *write_data; read_end = data - 1; do { *write_data_b = ((*read_data--) ^ 0x80) << 8; *write_data_b++ |= *read_data--; } while (read_data < read_end); gus_sample->loop_start += loop_length; gus_sample->loop_end += dloop_length; gus_sample->data_length = new_length; gus_sample->modes ^= SAMPLE_PINGPONG | SAMPLE_REVERSE | SAMPLE_UNSIGNED; return 0; } _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, "to parse sample", errno); return -1; } /* sample loading */ struct _sample * Instruments::load_gus_pat(const char *filename) { unsigned char *gus_patch; unsigned long int gus_size; unsigned long int gus_ptr; unsigned char no_of_samples; struct _sample *gus_sample = NULL; struct _sample *first_gus_sample = NULL; unsigned long int i = 0; int (*do_convert[])(unsigned char *data, struct _sample *gus_sample) = { convert_8s, convert_16s, convert_8u, convert_16u, convert_8sp, convert_16sp, convert_8up, convert_16up, convert_8sr, convert_16sr, convert_8ur, convert_16ur, convert_8srp, convert_16srp, convert_8urp, convert_16urp }; unsigned long int tmp_loop; /*unused*/fix_release; SAMPLE_CONVERT_DEBUG(__FUNCTION__); SAMPLE_CONVERT_DEBUG(filename); if ((gus_patch = _WM_BufferFile(sfreader, filename, &gus_size)) == NULL) { return NULL; } if (gus_size < 239) { _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_CORUPT, "(too short)", 0); _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_LOAD, filename, 0); free(gus_patch); return NULL; } if (memcmp(gus_patch, "GF1PATCH110\0ID#000002", 22) && memcmp(gus_patch, "GF1PATCH100\0ID#000002", 22)) { _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_INVALID, "(unsupported format)", 0); _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_LOAD, filename, 0); free(gus_patch); return NULL; } if (gus_patch[82] > 1) { _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_INVALID, "(unsupported format)", 0); _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_LOAD, filename, 0); free(gus_patch); return NULL; } if (gus_patch[151] > 1) { _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_INVALID, "(unsupported format)", 0); _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_LOAD, filename, 0); free(gus_patch); return NULL; } GUSPAT_FILENAME_DEBUG(filename); GUSPAT_INT_DEBUG("voices",gus_patch[83]); no_of_samples = gus_patch[198]; gus_ptr = 239; while (no_of_samples) { unsigned long int tmp_cnt; if (first_gus_sample == NULL) { first_gus_sample = (struct _sample*)malloc(sizeof(struct _sample)); gus_sample = first_gus_sample; } else { gus_sample->next = (struct _sample*)malloc(sizeof(struct _sample)); gus_sample = gus_sample->next; } if (gus_sample == NULL) { _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_MEM, NULL, 0); _WM_ERROR(__FUNCTION__, __LINE__, WM_ERR_LOAD, filename, 0); free(gus_patch); return NULL; } gus_sample->next = NULL; gus_sample->loop_fraction = gus_patch[gus_ptr + 7]; gus_sample->data_length = (gus_patch[gus_ptr + 11] << 24) | (gus_patch[gus_ptr + 10] << 16) | (gus_patch[gus_ptr + 9] << 8) | gus_patch[gus_ptr + 8]; gus_sample->loop_start = (gus_patch[gus_ptr + 15] << 24) | (gus_patch[gus_ptr + 14] << 16) | (gus_patch[gus_ptr + 13] << 8) | gus_patch[gus_ptr + 12]; gus_sample->loop_end = (gus_patch[gus_ptr + 19] << 24) | (gus_patch[gus_ptr + 18] << 16) | (gus_patch[gus_ptr + 17] << 8) | gus_patch[gus_ptr + 16]; gus_sample->rate = (gus_patch[gus_ptr + 21] << 8) | gus_patch[gus_ptr + 20]; gus_sample->freq_low = ((gus_patch[gus_ptr + 25] << 24) | (gus_patch[gus_ptr + 24] << 16) | (gus_patch[gus_ptr + 23] << 8) | gus_patch[gus_ptr + 22]); gus_sample->freq_high = ((gus_patch[gus_ptr + 29] << 24) | (gus_patch[gus_ptr + 28] << 16) | (gus_patch[gus_ptr + 27] << 8) | gus_patch[gus_ptr + 26]); gus_sample->freq_root = ((gus_patch[gus_ptr + 33] << 24) | (gus_patch[gus_ptr + 32] << 16) | (gus_patch[gus_ptr + 31] << 8) | gus_patch[gus_ptr + 30]); /* This is done this way instead of ((freq * 1024) / rate) to avoid 32bit overflow. */ /* Result is 0.001% inacurate */ gus_sample->inc_div = ((gus_sample->freq_root * 512) / gus_sample->rate) * 2; #if 0 /* We dont use this info at this time, kept in here for info */ printf("\rTremolo Sweep: %i, Rate: %i, Depth %i\n", gus_patch[gus_ptr+49], gus_patch[gus_ptr+50], gus_patch[gus_ptr+51]); printf("\rVibrato Sweep: %i, Rate: %i, Depth %i\n", gus_patch[gus_ptr+52], gus_patch[gus_ptr+53], gus_patch[gus_ptr+54]); #endif gus_sample->modes = gus_patch[gus_ptr + 55]; GUSPAT_START_DEBUG(); GUSPAT_MODE_DEBUG(gus_patch[gus_ptr+55], SAMPLE_16BIT, "16bit "); GUSPAT_MODE_DEBUG(gus_patch[gus_ptr+55], SAMPLE_UNSIGNED, "Unsigned "); GUSPAT_MODE_DEBUG(gus_patch[gus_ptr+55], SAMPLE_LOOP, "Loop "); GUSPAT_MODE_DEBUG(gus_patch[gus_ptr+55], SAMPLE_PINGPONG, "PingPong "); GUSPAT_MODE_DEBUG(gus_patch[gus_ptr+55], SAMPLE_REVERSE, "Reverse "); GUSPAT_MODE_DEBUG(gus_patch[gus_ptr+55], SAMPLE_SUSTAIN, "Sustain "); GUSPAT_MODE_DEBUG(gus_patch[gus_ptr+55], SAMPLE_ENVELOPE, "Envelope "); GUSPAT_MODE_DEBUG(gus_patch[gus_ptr+55], SAMPLE_CLAMPED, "Clamped "); GUSPAT_END_DEBUG(); if (gus_sample->loop_start > gus_sample->loop_end) { tmp_loop = gus_sample->loop_end; gus_sample->loop_end = gus_sample->loop_start; gus_sample->loop_start = tmp_loop; gus_sample->loop_fraction = ((gus_sample->loop_fraction & 0x0f) << 4) | ((gus_sample->loop_fraction & 0xf0) >> 4); } /* FIXME: Experimental Hacky Fix This looks for "dodgy" release envelope settings that faulty editors may have set and attempts to corrects it. if (fix_release) Lets make this automatic ... */ { /* After studying faulty gus_pats this way may work better Testing to determine if any further adjustments are required */ if (env_time_table[gus_patch[gus_ptr + 40]] < env_time_table[gus_patch[gus_ptr + 41]]) { unsigned char tmp_hack_rate = 0; if (env_time_table[gus_patch[gus_ptr + 41]] < env_time_table[gus_patch[gus_ptr + 42]]) { // 1 2 3 tmp_hack_rate = gus_patch[gus_ptr + 40]; gus_patch[gus_ptr + 40] = gus_patch[gus_ptr + 42]; gus_patch[gus_ptr + 42] = tmp_hack_rate; } else if (env_time_table[gus_patch[gus_ptr + 41]] == env_time_table[gus_patch[gus_ptr + 42]]) { // 1 2 2 tmp_hack_rate = gus_patch[gus_ptr + 40]; gus_patch[gus_ptr + 40] = gus_patch[gus_ptr + 42]; gus_patch[gus_ptr + 41] = gus_patch[gus_ptr + 42]; gus_patch[gus_ptr + 42] = tmp_hack_rate; } else { if (env_time_table[gus_patch[gus_ptr + 40]] < env_time_table[gus_patch[gus_ptr + 42]]) { // 1 3 2 tmp_hack_rate = gus_patch[gus_ptr + 40]; gus_patch[gus_ptr + 40] = gus_patch[gus_ptr + 41]; gus_patch[gus_ptr + 41] = gus_patch[gus_ptr + 42]; gus_patch[gus_ptr + 42] = tmp_hack_rate; } else { // 2 3 1 or 1 2 1 tmp_hack_rate = gus_patch[gus_ptr + 40]; gus_patch[gus_ptr + 40] = gus_patch[gus_ptr + 41]; gus_patch[gus_ptr + 41] = tmp_hack_rate; } } } else if (env_time_table[gus_patch[gus_ptr + 41]] < env_time_table[gus_patch[gus_ptr + 42]]) { unsigned char tmp_hack_rate = 0; if (env_time_table[gus_patch[gus_ptr + 40]] < env_time_table[gus_patch[gus_ptr + 42]]) { // 2 1 3 tmp_hack_rate = gus_patch[gus_ptr + 40]; gus_patch[gus_ptr + 40] = gus_patch[gus_ptr + 42]; gus_patch[gus_ptr + 42] = gus_patch[gus_ptr + 41]; gus_patch[gus_ptr + 41] = tmp_hack_rate; } else { // 3 1 2 tmp_hack_rate = gus_patch[gus_ptr + 41]; gus_patch[gus_ptr + 41] = gus_patch[gus_ptr + 42]; gus_patch[gus_ptr + 42] = tmp_hack_rate; } } #if 0 if ((env_time_table[gus_patch[gus_ptr + 40]] < env_time_table[gus_patch[gus_ptr + 41]]) && (env_time_table[gus_patch[gus_ptr + 41]] == env_time_table[gus_patch[gus_ptr + 42]])) { uint8_t tmp_hack_rate = 0; tmp_hack_rate = gus_patch[gus_ptr + 41]; gus_patch[gus_ptr + 41] = gus_patch[gus_ptr + 40]; gus_patch[gus_ptr + 42] = gus_patch[gus_ptr + 40]; gus_patch[gus_ptr + 40] = tmp_hack_rate; tmp_hack_rate = gus_patch[gus_ptr + 47]; gus_patch[gus_ptr + 47] = gus_patch[gus_ptr + 46]; gus_patch[gus_ptr + 48] = gus_patch[gus_ptr + 46]; gus_patch[gus_ptr + 46] = tmp_hack_rate; } #endif } for (i = 0; i < 6; i++) { GUSPAT_INT_DEBUG("Envelope #",i); if (gus_sample->modes & SAMPLE_ENVELOPE) { unsigned char env_rate = gus_patch[gus_ptr + 37 + i]; gus_sample->env_target[i] = 16448 * gus_patch[gus_ptr + 43 + i]; GUSPAT_INT_DEBUG("Envelope Level",gus_patch[gus_ptr+43+i]); GUSPAT_FLOAT_DEBUG("Envelope Time",env_time_table[env_rate]); gus_sample->env_rate[i] = (signed long int) (4194303.0 / ((float) _WM_SampleRate * env_time_table[env_rate])); GUSPAT_INT_DEBUG("Envelope Rate",gus_sample->env_rate[i]); GUSPAT_INT_DEBUG("GUSPAT Rate",env_rate); if (gus_sample->env_rate[i] == 0) { _WM_ERROR_NEW("Warning: found invalid envelope(%lu) rate setting in %s. Using %f instead.\n", i, filename, env_time_table[63]); gus_sample->env_rate[i] = (signed long int) (4194303.0 / ((float) _WM_SampleRate * env_time_table[63])); GUSPAT_FLOAT_DEBUG("Envelope Time",env_time_table[63]); } } else { gus_sample->env_target[i] = 4194303; gus_sample->env_rate[i] = (signed long int) (4194303.0 / ((float) _WM_SampleRate * env_time_table[63])); GUSPAT_FLOAT_DEBUG("Envelope Time",env_time_table[63]); } } gus_sample->env_target[6] = 0; gus_sample->env_rate[6] = (signed long int) (4194303.0 / ((float) _WM_SampleRate * env_time_table[63])); gus_ptr += 96; tmp_cnt = gus_sample->data_length; if (do_convert[(((gus_sample->modes & 0x18) >> 1) | (gus_sample->modes & 0x03))](&gus_patch[gus_ptr], gus_sample) == -1) { free(gus_patch); return NULL; } /* Test and set decay expected decay time after a note off NOTE: This sets samples for full range decay */ if (gus_sample->modes & SAMPLE_ENVELOPE) { double samples_f = 0.0; if (gus_sample->modes & SAMPLE_CLAMPED) { samples_f = (4194301.0 - (float)gus_sample->env_target[5]) / gus_sample->env_rate[5]; } else { if (gus_sample->modes & SAMPLE_SUSTAIN) { samples_f = (4194301.0 - (float)gus_sample->env_target[3]) / gus_sample->env_rate[3]; samples_f += (float)(gus_sample->env_target[3] - gus_sample->env_target[4]) / gus_sample->env_rate[4]; } else { samples_f = (4194301.0 - (float)gus_sample->env_target[4]) / gus_sample->env_rate[4]; } samples_f += (float)(gus_sample->env_target[4] - gus_sample->env_target[5]) / gus_sample->env_rate[5]; } samples_f += (float)gus_sample->env_target[5] / gus_sample->env_rate[6]; } gus_ptr += tmp_cnt; gus_sample->loop_start = (gus_sample->loop_start << 10) | (((gus_sample->loop_fraction & 0x0f) << 10) / 16); gus_sample->loop_end = (gus_sample->loop_end << 10) | (((gus_sample->loop_fraction & 0xf0) << 6) / 16); gus_sample->loop_size = gus_sample->loop_end - gus_sample->loop_start; gus_sample->data_length = gus_sample->data_length << 10; no_of_samples--; } free(gus_patch); return first_gus_sample; } }