From 329ef82747c2beea89b8c012c109a960e1d30a0c Mon Sep 17 00:00:00 2001 From: veclavtalica Date: Mon, 8 Jul 2024 18:01:08 +0300 Subject: [PATCH] push third-party/libxm --- third-party/libxm/CMakeLists.txt | 40 + third-party/libxm/include/xm.h | 262 +++++ third-party/libxm/src/CMakeLists.txt | 2 + third-party/libxm/src/context.c | 256 +++++ third-party/libxm/src/load.c | 416 ++++++++ third-party/libxm/src/play.c | 1428 ++++++++++++++++++++++++++ third-party/libxm/src/xm.c | 9 + third-party/libxm/src/xm_internal.h | 317 ++++++ 8 files changed, 2730 insertions(+) create mode 100644 third-party/libxm/CMakeLists.txt create mode 100644 third-party/libxm/include/xm.h create mode 100644 third-party/libxm/src/CMakeLists.txt create mode 100644 third-party/libxm/src/context.c create mode 100644 third-party/libxm/src/load.c create mode 100644 third-party/libxm/src/play.c create mode 100644 third-party/libxm/src/xm.c create mode 100644 third-party/libxm/src/xm_internal.h diff --git a/third-party/libxm/CMakeLists.txt b/third-party/libxm/CMakeLists.txt new file mode 100644 index 0000000..9854a17 --- /dev/null +++ b/third-party/libxm/CMakeLists.txt @@ -0,0 +1,40 @@ +CMAKE_MINIMUM_REQUIRED(VERSION 2.8) +PROJECT(libxm C) + +FUNCTION(OPTION_AND_DEFINE name description default_value) +OPTION(${name} ${description} ${default_value}) +IF(${name}) +ADD_DEFINITIONS(-D${name}=1) +ELSE() +ADD_DEFINITIONS(-D${name}=0) +ENDIF() +ENDFUNCTION() + +OPTION_AND_DEFINE(XM_DEBUG "Enable debug symbols and print debugging messages to stderr" "ON") +OPTION_AND_DEFINE(XM_DEFENSIVE "Defensively check XM data for errors/inconsistencies" "ON") +OPTION_AND_DEFINE(XM_BIG_ENDIAN "Use big endian byte order (unfinished)" "OFF") + +OPTION_AND_DEFINE(XM_LINEAR_INTERPOLATION "Use linear interpolation (CPU hungry)" "ON") +OPTION_AND_DEFINE(XM_RAMPING "Enable ramping (smooth volume/panning transitions, CPU hungry)" "ON") +OPTION_AND_DEFINE(XM_STRINGS "Store module, instrument and sample names in context" "OFF") +OPTION_AND_DEFINE(XM_LIBXMIZE_DELTA_SAMPLES "Delta-code samples in libxmize format" "ON") + +OPTION(XM_DEMO_MODE "Optimize for size (then link statically against libxms and strip dead code)" "OFF") + +ADD_DEFINITIONS("-Wall -pedantic --std=c11") + +IF(XM_DEBUG) +ADD_DEFINITIONS("-g") +ENDIF() + +IF(XM_DEMO_MODE) +ADD_DEFINITIONS("-Os -fdata-sections -ffunction-sections -flto -fuse-linker-plugin -fvisibility=hidden") +SET(CMAKE_EXE_LINKER_FLAGS "${CMAKE_EXE_LINKER_FLAGS} -Wl,--gc-sections") +ELSE() +ADD_DEFINITIONS("-O2") +ENDIF() + +LIST(APPEND XM_INCLUDE_DIRS "${libxm_SOURCE_DIR}/include") +LIST(APPEND XM_LIBRARIES "m") + +ADD_SUBDIRECTORY(src) diff --git a/third-party/libxm/include/xm.h b/third-party/libxm/include/xm.h new file mode 100644 index 0000000..1c72848 --- /dev/null +++ b/third-party/libxm/include/xm.h @@ -0,0 +1,262 @@ +/* Author: Romain "Artefact2" Dalmaso */ +/* Contributor: Dan Spencer */ + +/* This program is free software. It comes without any warranty, to the + * extent permitted by applicable law. You can redistribute it and/or + * modify it under the terms of the Do What The Fuck You Want To Public + * License, Version 2, as published by Sam Hocevar. See + * http://sam.zoy.org/wtfpl/COPYING for more details. */ + +#pragma once +#ifndef __has_xm_h +#define __has_xm_h + +#include +#include +#include + +#ifdef __cplusplus +extern "C" { +#endif + +struct xm_context_s; +typedef struct xm_context_s xm_context_t; + +/** Create a XM context. + * + * @param moddata the contents of the module + * @param rate play rate in Hz, recommended value of 48000 + * + * @returns 0 on success + * @returns 1 if module data is not sane + * @returns 2 if memory allocation failed + * + * @deprecated This function is unsafe! + * @see xm_create_context_safe() + */ +int xm_create_context(xm_context_t**, const char* moddata, uint32_t rate); + +/** Create a XM context. + * + * @param moddata the contents of the module + * @param moddata_length the length of the contents of the module, in bytes + * @param rate play rate in Hz, recommended value of 48000 + * + * @returns 0 on success + * @returns 1 if module data is not sane + * @returns 2 if memory allocation failed + */ +int xm_create_context_safe(xm_context_t**, const char* moddata, size_t moddata_length, uint32_t rate); + +/** Free a XM context created by xm_create_context(). */ +void xm_free_context(xm_context_t*); + +/** Play the module and put the sound samples in an output buffer. + * + * @param output buffer of 2*numsamples elements + * @param maximum numsamples number of samples to generate + * + * @return number of generated samples. + */ +int xm_generate_samples(xm_context_t*, float* output, size_t numsamples); + +/** Seeks to the start clearing the loop count. + * + * @return number of generated samples. + */ +void xm_restart(xm_context_t*); + + +/** Set the maximum number of times a module can loop. After the + * specified number of loops, calls to xm_generate_samples will only + * generate silence. You can control the current number of loops with + * xm_get_loop_count(). + * + * @param loopcnt maximum number of loops. Use 0 to loop + * indefinitely. */ +void xm_set_max_loop_count(xm_context_t*, uint8_t loopcnt); + +/** Get the loop count of the currently playing module. This value is + * 0 when the module is still playing, 1 when the module has looped + * once, etc. */ +uint8_t xm_get_loop_count(xm_context_t*); + + + +/** Seek to a specific position in a module. + * + * WARNING, WITH BIG LETTERS: seeking modules is broken by design, + * don't expect miracles. + */ +void xm_seek(xm_context_t*, uint8_t pot, uint8_t row, uint16_t tick); + + + +/** Mute or unmute a channel. + * + * @note Channel numbers go from 1 to xm_get_number_of_channels(...). + * + * @return whether the channel was muted. + */ +bool xm_mute_channel(xm_context_t*, uint16_t, bool); + +/** Mute or unmute an instrument. + * + * @note Instrument numbers go from 1 to + * xm_get_number_of_instruments(...). + * + * @return whether the instrument was muted. + */ +bool xm_mute_instrument(xm_context_t*, uint16_t, bool); + + + +/** Get the module name as a NUL-terminated string. */ +const char* xm_get_module_name(xm_context_t*); + +/** Get the tracker name as a NUL-terminated string. */ +const char* xm_get_tracker_name(xm_context_t*); + + + +/** Get the number of channels. */ +uint16_t xm_get_number_of_channels(xm_context_t*); + +/** Get the module length (in patterns). */ +uint16_t xm_get_module_length(xm_context_t*); + +/** Get the number of patterns. */ +uint16_t xm_get_number_of_patterns(xm_context_t*); + +/** Get the number of rows of a pattern. + * + * @note Pattern numbers go from 0 to + * xm_get_number_of_patterns(...)-1. + */ +uint16_t xm_get_number_of_rows(xm_context_t*, uint16_t); + +/** Get the number of instruments. */ +uint16_t xm_get_number_of_instruments(xm_context_t*); + +/** Get the number of samples of an instrument. + * + * @note Instrument numbers go from 1 to + * xm_get_number_of_instruments(...). + */ +uint16_t xm_get_number_of_samples(xm_context_t*, uint16_t); + +/** Get the internal buffer for a given sample waveform. + * + * This buffer can be read from or written to, at any time, but the + * length cannot change. The buffer must be cast to (int8_t*) or + * (int16_t*) depending on the sample type. + * + * @note Instrument numbers go from 1 to + * xm_get_number_of_instruments(...). + * + * @note Sample numbers go from 0 to + * xm_get_nubmer_of_samples(...,instr)-1. + */ +void* xm_get_sample_waveform(xm_context_t*, uint16_t instr, uint16_t sample, size_t* length, uint8_t* bits); + + + +/** Get the current module speed. + * + * @param bpm will receive the current BPM + * @param tempo will receive the current tempo (ticks per line) + */ +void xm_get_playing_speed(xm_context_t*, uint16_t* bpm, uint16_t* tempo); + +/** Get the current position in the module being played. + * + * @param pattern_index if not NULL, will receive the current pattern + * index in the POT (pattern order table) + * + * @param pattern if not NULL, will receive the current pattern number + * + * @param row if not NULL, will receive the current row + * + * @param samples if not NULL, will receive the total number of + * generated samples (divide by sample rate to get seconds of + * generated audio) + */ +void xm_get_position(xm_context_t*, uint8_t* pattern_index, uint8_t* pattern, uint8_t* row, uint64_t* samples); + +/** Get the latest time (in number of generated samples) when a + * particular instrument was triggered in any channel. + * + * @note Instrument numbers go from 1 to + * xm_get_number_of_instruments(...). + */ +uint64_t xm_get_latest_trigger_of_instrument(xm_context_t*, uint16_t); + +/** Get the latest time (in number of generated samples) when a + * particular sample was triggered in any channel. + * + * @note Instrument numbers go from 1 to + * xm_get_number_of_instruments(...). + * + * @note Sample numbers go from 0 to + * xm_get_nubmer_of_samples(...,instr)-1. + */ +uint64_t xm_get_latest_trigger_of_sample(xm_context_t*, uint16_t instr, uint16_t sample); + +/** Get the latest time (in number of generated samples) when any + * instrument was triggered in a given channel. + * + * @note Channel numbers go from 1 to xm_get_number_of_channels(...). + */ +uint64_t xm_get_latest_trigger_of_channel(xm_context_t*, uint16_t); + +/** Checks whether a channel is active (ie: is playing something). + * + * @note Channel numbers go from 1 to xm_get_number_of_channels(...). + */ +bool xm_is_channel_active(xm_context_t*, uint16_t); + +/** Get the instrument number currently playing in a channel. + * + * @returns instrument number, or 0 if channel is not active. + * + * @note Channel numbers go from 1 to xm_get_number_of_channels(...). + * + * @note Instrument numbers go from 1 to + * xm_get_number_of_instruments(...). + */ +uint16_t xm_get_instrument_of_channel(xm_context_t*, uint16_t); + +/** Get the frequency of the sample currently playing in a channel. + * + * @returns a frequency in Hz. If the channel is not active, return + * value is undefined. + * + * @note Channel numbers go from 1 to xm_get_number_of_channels(...). + */ +float xm_get_frequency_of_channel(xm_context_t*, uint16_t); + +/** Get the volume of the sample currently playing in a channel. This + * takes into account envelopes, etc. + * + * @returns a volume between 0 or 1. If the channel is not active, + * return value is undefined. + * + * @note Channel numbers go from 1 to xm_get_number_of_channels(...). + */ +float xm_get_volume_of_channel(xm_context_t*, uint16_t); + +/** Get the panning of the sample currently playing in a channel. This + * takes into account envelopes, etc. + * + * @returns a panning between 0 (L) and 1 (R). If the channel is not + * active, return value is undefined. + * + * @note Channel numbers go from 1 to xm_get_number_of_channels(...). + */ +float xm_get_panning_of_channel(xm_context_t*, uint16_t); + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/third-party/libxm/src/CMakeLists.txt b/third-party/libxm/src/CMakeLists.txt new file mode 100644 index 0000000..fbb9f00 --- /dev/null +++ b/third-party/libxm/src/CMakeLists.txt @@ -0,0 +1,2 @@ +ADD_LIBRARY(xms STATIC xm.c context.c load.c play.c) +INCLUDE_DIRECTORIES(${XM_INCLUDE_DIRS}) diff --git a/third-party/libxm/src/context.c b/third-party/libxm/src/context.c new file mode 100644 index 0000000..edeac0d --- /dev/null +++ b/third-party/libxm/src/context.c @@ -0,0 +1,256 @@ +/* Author: Romain "Artefact2" Dalmaso */ + +/* This program is free software. It comes without any warranty, to the + * extent permitted by applicable law. You can redistribute it and/or + * modify it under the terms of the Do What The Fuck You Want To Public + * License, Version 2, as published by Sam Hocevar. See + * http://sam.zoy.org/wtfpl/COPYING for more details. */ + +#include "xm_internal.h" + +#define OFFSET(ptr) do { \ + (ptr) = (void*)((intptr_t)(ptr) + (intptr_t)(*ctxp)); \ + } while(0) + +#define CHECK_CHANNEL(ctx, c) do { \ + if(XM_DEBUG && ((c) == 0 || (c) > (ctx)->module.num_channels)) \ + DEBUG("invalid channel %d", (c)); \ + } while(0) + +#define CHECK_INSTRUMENT(ctx, i) do { \ + if(XM_DEBUG && ((i) == 0 || (i) > (ctx)->module.num_instruments)) \ + DEBUG("invalid instrument %d", (i)); \ + } while(0) + +#define CHECK_SAMPLE(ctx, i, s) do { \ + CHECK_INSTRUMENT((ctx), (i)); \ + if(XM_DEBUG && ((s) > (ctx)->module.instruments[(i)].num_samples)) \ + DEBUG("invalid sample %d for instrument %d", (s), (i)); \ + } while(0) + + + +int xm_create_context(xm_context_t** ctxp, const char* moddata, uint32_t rate) { + return xm_create_context_safe(ctxp, moddata, SIZE_MAX, rate); +} + +int xm_create_context_safe(xm_context_t** ctxp, const char* moddata, size_t moddata_length, uint32_t rate) { + size_t bytes_needed; + char* mempool; + xm_context_t* ctx; + + if(XM_DEFENSIVE) { + int ret; + if((ret = xm_check_sanity_preload(moddata, moddata_length))) { + DEBUG("xm_check_sanity_preload() returned %i, module is not safe to load", ret); + return 1; + } + } + + bytes_needed = xm_get_memory_needed_for_context(moddata, moddata_length); + mempool = malloc(bytes_needed); + if(mempool == NULL && bytes_needed > 0) { + /* malloc() failed, trouble ahead */ + DEBUG("call to malloc() failed, returned %p", (void*)mempool); + return 2; + } + + /* Initialize most of the fields to 0, 0.f, NULL or false depending on type */ + memset(mempool, 0, bytes_needed); + + ctx = (*ctxp = (xm_context_t*)mempool); + ctx->ctx_size = bytes_needed; /* Keep original requested size for xmconvert */ + mempool += sizeof(xm_context_t); + + ctx->rate = rate; + mempool = xm_load_module(ctx, moddata, moddata_length, mempool); + + ctx->channels = (xm_channel_context_t*)mempool; + mempool += ctx->module.num_channels * sizeof(xm_channel_context_t); + + ctx->global_volume = 1.f; + ctx->amplification = .25f; /* XXX: some bad modules may still clip. Find out something better. */ + +#if XM_RAMPING + ctx->volume_ramp = (1.f / 128.f); +#endif + + for(uint8_t i = 0; i < ctx->module.num_channels; ++i) { + xm_channel_context_t* ch = ctx->channels + i; + + ch->ping = true; + ch->vibrato_waveform = XM_SINE_WAVEFORM; + ch->vibrato_waveform_retrigger = true; + ch->tremolo_waveform = XM_SINE_WAVEFORM; + ch->tremolo_waveform_retrigger = true; + + ch->volume = ch->volume_envelope_volume = ch->fadeout_volume = 1.0f; + ch->panning = ch->panning_envelope_panning = .5f; + ch->actual_volume[0] = .0f; + ch->actual_volume[1] = .0f; + } + + ctx->row_loop_count = (uint8_t*)mempool; + mempool += ctx->module.length * MAX_NUM_ROWS * sizeof(uint8_t); + + if(XM_DEFENSIVE) { + int ret; + if((ret = xm_check_sanity_postload(ctx))) { + DEBUG("xm_check_sanity_postload() returned %i, module is not safe to play", ret); + xm_free_context(ctx); + return 1; + } + } + + return 0; +} + +void xm_free_context(xm_context_t* context) { + free(context); +} + +void xm_set_max_loop_count(xm_context_t* context, uint8_t loopcnt) { + context->max_loop_count = loopcnt; +} + +uint8_t xm_get_loop_count(xm_context_t* context) { + return context->loop_count; +} + + + +void xm_seek(xm_context_t* ctx, uint8_t pot, uint8_t row, uint16_t tick) { + ctx->current_table_index = pot; + ctx->current_row = row; + ctx->current_tick = tick; + ctx->remaining_samples_in_tick = 0; +} + + + +bool xm_mute_channel(xm_context_t* ctx, uint16_t channel, bool mute) { + CHECK_CHANNEL(ctx, channel); + bool old = ctx->channels[channel - 1].muted; + ctx->channels[channel - 1].muted = mute; + return old; +} + +bool xm_mute_instrument(xm_context_t* ctx, uint16_t instr, bool mute) { + CHECK_INSTRUMENT(ctx, instr); + bool old = ctx->module.instruments[instr - 1].muted; + ctx->module.instruments[instr - 1].muted = mute; + return old; +} + + + +#if XM_STRINGS +const char* xm_get_module_name(xm_context_t* ctx) { + return ctx->module.name; +} + +const char* xm_get_tracker_name(xm_context_t* ctx) { + return ctx->module.trackername; +} +#else +const char* xm_get_module_name(xm_context_t* ctx) { + return NULL; +} + +const char* xm_get_tracker_name(xm_context_t* ctx) { + return NULL; +} +#endif + + + +uint16_t xm_get_number_of_channels(xm_context_t* ctx) { + return ctx->module.num_channels; +} + +uint16_t xm_get_module_length(xm_context_t* ctx) { + return ctx->module.length; +} + +uint16_t xm_get_number_of_patterns(xm_context_t* ctx) { + return ctx->module.num_patterns; +} + +uint16_t xm_get_number_of_rows(xm_context_t* ctx, uint16_t pattern) { + if(pattern < ctx->module.num_patterns) + return ctx->module.patterns[pattern].num_rows; + return DEFAULT_PATTERN_LENGTH; +} + +uint16_t xm_get_number_of_instruments(xm_context_t* ctx) { + return ctx->module.num_instruments; +} + +uint16_t xm_get_number_of_samples(xm_context_t* ctx, uint16_t instrument) { + CHECK_INSTRUMENT(ctx, instrument); + return ctx->module.instruments[instrument - 1].num_samples; +} + +void* xm_get_sample_waveform(xm_context_t* ctx, uint16_t i, uint16_t s, size_t* size, uint8_t* bits) { + CHECK_SAMPLE(ctx, i, s); + *size = ctx->module.instruments[i - 1].samples[s].length; + *bits = ctx->module.instruments[i - 1].samples[s].bits; + return ctx->module.instruments[i - 1].samples[s].data8; +} + + + +void xm_get_playing_speed(xm_context_t* ctx, uint16_t* bpm, uint16_t* tempo) { + if(bpm) *bpm = ctx->bpm; + if(tempo) *tempo = ctx->tempo; +} + +void xm_get_position(xm_context_t* ctx, uint8_t* pattern_index, uint8_t* pattern, uint8_t* row, uint64_t* samples) { + if(pattern_index) *pattern_index = ctx->current_table_index; + if(pattern) *pattern = ctx->module.pattern_table[ctx->current_table_index]; + if(row) *row = ctx->current_row; + if(samples) *samples = ctx->generated_samples; +} + +uint64_t xm_get_latest_trigger_of_instrument(xm_context_t* ctx, uint16_t instr) { + CHECK_INSTRUMENT(ctx, instr); + return ctx->module.instruments[instr - 1].latest_trigger; +} + +uint64_t xm_get_latest_trigger_of_sample(xm_context_t* ctx, uint16_t instr, uint16_t sample) { + CHECK_SAMPLE(ctx, instr, sample); + return ctx->module.instruments[instr - 1].samples[sample].latest_trigger; +} + +uint64_t xm_get_latest_trigger_of_channel(xm_context_t* ctx, uint16_t chn) { + CHECK_CHANNEL(ctx, chn); + return ctx->channels[chn - 1].latest_trigger; +} + +bool xm_is_channel_active(xm_context_t* ctx, uint16_t chn) { + CHECK_CHANNEL(ctx, chn); + xm_channel_context_t* ch = ctx->channels + (chn - 1); + return ch->instrument != NULL && ch->sample != NULL && ch->sample_position >= 0; +} + +float xm_get_frequency_of_channel(xm_context_t* ctx, uint16_t chn) { + CHECK_CHANNEL(ctx, chn); + return ctx->channels[chn - 1].frequency; +} + +float xm_get_volume_of_channel(xm_context_t* ctx, uint16_t chn) { + CHECK_CHANNEL(ctx, chn); + return ctx->channels[chn - 1].volume * ctx->global_volume; +} + +float xm_get_panning_of_channel(xm_context_t* ctx, uint16_t chn) { + CHECK_CHANNEL(ctx, chn); + return ctx->channels[chn - 1].panning; +} + +uint16_t xm_get_instrument_of_channel(xm_context_t* ctx, uint16_t chn) { + CHECK_CHANNEL(ctx, chn); + xm_channel_context_t* ch = ctx->channels + (chn - 1); + if(ch->instrument == NULL) return 0; + return 1 + (ch->instrument - ctx->module.instruments); +} diff --git a/third-party/libxm/src/load.c b/third-party/libxm/src/load.c new file mode 100644 index 0000000..9a5fb20 --- /dev/null +++ b/third-party/libxm/src/load.c @@ -0,0 +1,416 @@ +/* Author: Romain "Artefact2" Dalmaso */ +/* Contributor: Dan Spencer */ + +/* This program is free software. It comes without any warranty, to the + * extent permitted by applicable law. You can redistribute it and/or + * modify it under the terms of the Do What The Fuck You Want To Public + * License, Version 2, as published by Sam Hocevar. See + * http://sam.zoy.org/wtfpl/COPYING for more details. */ + +#include "xm_internal.h" + +/* .xm files are little-endian. */ + +/* Bounded reader macros. + * If we attempt to read the buffer out-of-bounds, pretend that the buffer is + * infinitely padded with zeroes. + */ +#define READ_U8_BOUND(offset, bound) (((offset) < (bound)) ? (*(uint8_t*)(moddata + (offset))) : 0) +#define READ_U16_BOUND(offset, bound) ((uint16_t)READ_U8_BOUND(offset, bound) | ((uint16_t)READ_U8_BOUND((offset) + 1, bound) << 8)) +#define READ_U32_BOUND(offset, bound) ((uint32_t)READ_U16_BOUND(offset, bound) | ((uint32_t)READ_U16_BOUND((offset) + 2, bound) << 16)) +#define READ_MEMCPY_BOUND(ptr, offset, length, bound) memcpy_pad(ptr, length, moddata, bound, offset) + +#define READ_U8(offset) READ_U8_BOUND(offset, moddata_length) +#define READ_U16(offset) READ_U16_BOUND(offset, moddata_length) +#define READ_U32(offset) READ_U32_BOUND(offset, moddata_length) +#define READ_MEMCPY(ptr, offset, length) READ_MEMCPY_BOUND(ptr, offset, length, moddata_length) + +#define MIN(a, b) ((a) < (b) ? (a) : (b)) + +static inline void memcpy_pad(void* dst, size_t dst_len, const void* src, size_t src_len, size_t offset) { + uint8_t* dst_c = dst; + const uint8_t* src_c = src; + + /* how many bytes can be copied without overrunning `src` */ + size_t copy_bytes = (src_len >= offset) ? (src_len - offset) : 0; + copy_bytes = copy_bytes > dst_len ? dst_len : copy_bytes; + + memcpy(dst_c, src_c + offset, copy_bytes); + /* padded bytes */ + memset(dst_c + copy_bytes, 0, dst_len - copy_bytes); +} + +int xm_check_sanity_preload(const char* module, size_t module_length) { + if(module_length < 60) { + return 4; + } + + if(memcmp("Extended Module: ", module, 17) != 0) { + return 1; + } + + if(module[37] != 0x1A) { + return 2; + } + + if(module[59] != 0x01 || module[58] != 0x04) { + /* Not XM 1.04 */ + return 3; + } + + return 0; +} + +int xm_check_sanity_postload(xm_context_t* ctx) { + /* @todo: plenty of stuff to do here… */ + return 0; +} + +size_t xm_get_memory_needed_for_context(const char* moddata, size_t moddata_length) { + size_t memory_needed = 0; + size_t offset = 60; /* Skip the first header */ + uint16_t num_channels; + uint16_t num_patterns; + uint16_t num_instruments; + + /* Read the module header */ + + num_channels = READ_U16(offset + 8); + num_patterns = READ_U16(offset + 10); + memory_needed += num_patterns * sizeof(xm_pattern_t); + + num_instruments = READ_U16(offset + 12); + memory_needed += num_instruments * sizeof(xm_instrument_t); + + memory_needed += MAX_NUM_ROWS * READ_U16(offset + 4) * sizeof(uint8_t); /* Module length */ + + /* Header size */ + offset += READ_U32(offset); + + /* Read pattern headers */ + for(uint16_t i = 0; i < num_patterns; ++i) { + uint16_t num_rows; + + num_rows = READ_U16(offset + 5); + memory_needed += num_rows * num_channels * sizeof(xm_pattern_slot_t); + + /* Pattern header length + packed pattern data size */ + offset += READ_U32(offset) + READ_U16(offset + 7); + } + + /* Read instrument headers */ + for(uint16_t i = 0; i < num_instruments; ++i) { + uint16_t num_samples; + uint32_t sample_size_aggregate = 0; + + num_samples = READ_U16(offset + 27); + memory_needed += num_samples * sizeof(xm_sample_t); + + /* Instrument header size */ + uint32_t ins_header_size = READ_U32(offset); + if (ins_header_size == 0 || ins_header_size > INSTRUMENT_HEADER_LENGTH) + ins_header_size = INSTRUMENT_HEADER_LENGTH; + offset += ins_header_size; + + for(uint16_t j = 0; j < num_samples; ++j) { + uint32_t sample_size; + + sample_size = READ_U32(offset); + sample_size_aggregate += sample_size; + memory_needed += sample_size; + offset += 40; /* See comment in xm_load_module() */ + } + + offset += sample_size_aggregate; + } + + memory_needed += num_channels * sizeof(xm_channel_context_t); + memory_needed += sizeof(xm_context_t); + + return memory_needed; +} + +char* xm_load_module(xm_context_t* ctx, const char* moddata, size_t moddata_length, char* mempool) { + size_t offset = 0; + xm_module_t* mod = &(ctx->module); + + /* Read XM header */ +#if XM_STRINGS + READ_MEMCPY(mod->name, offset + 17, MODULE_NAME_LENGTH); + READ_MEMCPY(mod->trackername, offset + 38, TRACKER_NAME_LENGTH); +#endif + offset += 60; + + /* Read module header */ + uint32_t header_size = READ_U32(offset); + + mod->length = READ_U16(offset + 4); + mod->restart_position = READ_U16(offset + 6); + mod->num_channels = READ_U16(offset + 8); + mod->num_patterns = READ_U16(offset + 10); + mod->num_instruments = READ_U16(offset + 12); + + mod->patterns = (xm_pattern_t*)mempool; + mempool += mod->num_patterns * sizeof(xm_pattern_t); + + mod->instruments = (xm_instrument_t*)mempool; + mempool += mod->num_instruments * sizeof(xm_instrument_t); + + uint16_t flags = READ_U32(offset + 14); + mod->frequency_type = (flags & (1 << 0)) ? XM_LINEAR_FREQUENCIES : XM_AMIGA_FREQUENCIES; + + ctx->tempo = READ_U16(offset + 16); + ctx->bpm = READ_U16(offset + 18); + + READ_MEMCPY(mod->pattern_table, offset + 20, PATTERN_ORDER_TABLE_LENGTH); + offset += header_size; + + /* Read patterns */ + for(uint16_t i = 0; i < mod->num_patterns; ++i) { + uint16_t packed_patterndata_size = READ_U16(offset + 7); + xm_pattern_t* pat = mod->patterns + i; + + pat->num_rows = READ_U16(offset + 5); + + pat->slots = (xm_pattern_slot_t*)mempool; + mempool += mod->num_channels * pat->num_rows * sizeof(xm_pattern_slot_t); + + /* Pattern header length */ + offset += READ_U32(offset); + + if(packed_patterndata_size == 0) { + /* No pattern data is present */ + memset(pat->slots, 0, sizeof(xm_pattern_slot_t) * pat->num_rows * mod->num_channels); + } else { + /* This isn't your typical for loop */ + for(uint16_t j = 0, k = 0; j < packed_patterndata_size; ++k) { + uint8_t note = READ_U8(offset + j); + xm_pattern_slot_t* slot = pat->slots + k; + + if(note & (1 << 7)) { + /* MSB is set, this is a compressed packet */ + ++j; + + if(note & (1 << 0)) { + /* Note follows */ + slot->note = READ_U8(offset + j); + ++j; + } else { + slot->note = 0; + } + + if(note & (1 << 1)) { + /* Instrument follows */ + slot->instrument = READ_U8(offset + j); + ++j; + } else { + slot->instrument = 0; + } + + if(note & (1 << 2)) { + /* Volume column follows */ + slot->volume_column = READ_U8(offset + j); + ++j; + } else { + slot->volume_column = 0; + } + + if(note & (1 << 3)) { + /* Effect follows */ + slot->effect_type = READ_U8(offset + j); + ++j; + } else { + slot->effect_type = 0; + } + + if(note & (1 << 4)) { + /* Effect parameter follows */ + slot->effect_param = READ_U8(offset + j); + ++j; + } else { + slot->effect_param = 0; + } + } else { + /* Uncompressed packet */ + slot->note = note; + slot->instrument = READ_U8(offset + j + 1); + slot->volume_column = READ_U8(offset + j + 2); + slot->effect_type = READ_U8(offset + j + 3); + slot->effect_param = READ_U8(offset + j + 4); + j += 5; + } + } + } + + offset += packed_patterndata_size; + } + + /* Read instruments */ + for(uint16_t i = 0; i < ctx->module.num_instruments; ++i) { + xm_instrument_t* instr = mod->instruments + i; + + /* Original FT2 would load instruments with a direct read into the + instrument data structure that was previously zeroed. This means + that if the declared length was less than INSTRUMENT_HEADER_LENGTH, + all excess data would be zeroed. This is used by the XM compressor + BoobieSqueezer. To implement this, bound all reads to the header size. */ + uint32_t ins_header_size = READ_U32(offset); + if (ins_header_size == 0 || ins_header_size > INSTRUMENT_HEADER_LENGTH) + ins_header_size = INSTRUMENT_HEADER_LENGTH; + +#if XM_STRINGS + READ_MEMCPY_BOUND(instr->name, offset + 4, INSTRUMENT_NAME_LENGTH, offset + ins_header_size); + instr->name[INSTRUMENT_NAME_LENGTH] = 0; +#endif + instr->num_samples = READ_U16_BOUND(offset + 27, offset + ins_header_size); + + if(instr->num_samples > 0) { + /* Read extra header properties */ + READ_MEMCPY_BOUND(instr->sample_of_notes, offset + 33, NUM_NOTES, offset + ins_header_size); + + instr->volume_envelope.num_points = READ_U8_BOUND(offset + 225, offset + ins_header_size); + if (instr->volume_envelope.num_points > NUM_ENVELOPE_POINTS) + instr->volume_envelope.num_points = NUM_ENVELOPE_POINTS; + + instr->panning_envelope.num_points = READ_U8_BOUND(offset + 226, offset + ins_header_size); + if (instr->panning_envelope.num_points > NUM_ENVELOPE_POINTS) + instr->panning_envelope.num_points = NUM_ENVELOPE_POINTS; + + for(uint8_t j = 0; j < instr->volume_envelope.num_points; ++j) { + instr->volume_envelope.points[j].frame = READ_U16_BOUND(offset + 129 + 4 * j, offset + ins_header_size); + instr->volume_envelope.points[j].value = READ_U16_BOUND(offset + 129 + 4 * j + 2, offset + ins_header_size); + } + + for(uint8_t j = 0; j < instr->panning_envelope.num_points; ++j) { + instr->panning_envelope.points[j].frame = READ_U16_BOUND(offset + 177 + 4 * j, offset + ins_header_size); + instr->panning_envelope.points[j].value = READ_U16_BOUND(offset + 177 + 4 * j + 2, offset + ins_header_size); + } + + instr->volume_envelope.sustain_point = READ_U8_BOUND(offset + 227, offset + ins_header_size); + instr->volume_envelope.loop_start_point = READ_U8_BOUND(offset + 228, offset + ins_header_size); + instr->volume_envelope.loop_end_point = READ_U8_BOUND(offset + 229, offset + ins_header_size); + + instr->panning_envelope.sustain_point = READ_U8_BOUND(offset + 230, offset + ins_header_size); + instr->panning_envelope.loop_start_point = READ_U8_BOUND(offset + 231, offset + ins_header_size); + instr->panning_envelope.loop_end_point = READ_U8_BOUND(offset + 232, offset + ins_header_size); + + // Fix broken modules with loop points outside of defined points + if (instr->volume_envelope.num_points > 0) { + instr->volume_envelope.loop_start_point = + MIN(instr->volume_envelope.loop_start_point, instr->volume_envelope.num_points-1); + instr->volume_envelope.loop_end_point = + MIN(instr->volume_envelope.loop_end_point, instr->volume_envelope.num_points-1); + } + if (instr->panning_envelope.num_points > 0) { + instr->panning_envelope.loop_start_point = + MIN(instr->panning_envelope.loop_start_point, instr->panning_envelope.num_points-1); + instr->panning_envelope.loop_end_point = + MIN(instr->panning_envelope.loop_end_point, instr->panning_envelope.num_points-1); + } + + uint8_t flags = READ_U8_BOUND(offset + 233, offset + ins_header_size); + instr->volume_envelope.enabled = flags & (1 << 0); + instr->volume_envelope.sustain_enabled = flags & (1 << 1); + instr->volume_envelope.loop_enabled = flags & (1 << 2); + + flags = READ_U8_BOUND(offset + 234, offset + ins_header_size); + instr->panning_envelope.enabled = flags & (1 << 0); + instr->panning_envelope.sustain_enabled = flags & (1 << 1); + instr->panning_envelope.loop_enabled = flags & (1 << 2); + + instr->vibrato_type = READ_U8_BOUND(offset + 235, offset + ins_header_size); + if(instr->vibrato_type == 2) { + instr->vibrato_type = 1; + } else if(instr->vibrato_type == 1) { + instr->vibrato_type = 2; + } + instr->vibrato_sweep = READ_U8_BOUND(offset + 236, offset + ins_header_size); + instr->vibrato_depth = READ_U8_BOUND(offset + 237, offset + ins_header_size); + instr->vibrato_rate = READ_U8_BOUND(offset + 238, offset + ins_header_size); + instr->volume_fadeout = READ_U16_BOUND(offset + 239, offset + ins_header_size); + + instr->samples = (xm_sample_t*)mempool; + mempool += instr->num_samples * sizeof(xm_sample_t); + } else { + instr->samples = NULL; + } + + /* Instrument header size */ + offset += ins_header_size; + + for(uint16_t j = 0; j < instr->num_samples; ++j) { + /* Read sample header */ + xm_sample_t* sample = instr->samples + j; + + sample->length = READ_U32(offset); + sample->loop_start = READ_U32(offset + 4); + sample->loop_length = READ_U32(offset + 8); + sample->loop_end = sample->loop_start + sample->loop_length; + sample->volume = (float)READ_U8(offset + 12) / (float)0x40; + sample->finetune = (int8_t)READ_U8(offset + 13); + + /* Fix invalid loop definitions */ + if (sample->loop_start > sample->length) + sample->loop_start = sample->length; + if (sample->loop_end > sample->length) + sample->loop_end = sample->length; + sample->loop_length = sample->loop_end - sample->loop_start; + + uint8_t flags = READ_U8(offset + 14); + if((flags & 3) == 0 || sample->loop_length == 0) { + sample->loop_type = XM_NO_LOOP; + } else if((flags & 3) == 1) { + sample->loop_type = XM_FORWARD_LOOP; + } else { + sample->loop_type = XM_PING_PONG_LOOP; + } + + sample->bits = (flags & (1 << 4)) ? 16 : 8; + + sample->panning = (float)READ_U8(offset + 15) / (float)0xFF; + sample->relative_note = (int8_t)READ_U8(offset + 16); +#if XM_STRINGS + READ_MEMCPY(sample->name, offset + 18, SAMPLE_NAME_LENGTH); + sample->name[SAMPLE_NAME_LENGTH] = 0; +#endif + sample->data8 = (int8_t*)mempool; + mempool += sample->length; + + if(sample->bits == 16) { + sample->loop_start >>= 1; + sample->loop_length >>= 1; + sample->loop_end >>= 1; + sample->length >>= 1; + } + + /* Notice that, even if there's a "sample header size" in the + instrument header, that value seems ignored, and might even + be wrong in some corrupted modules. */ + offset += 40; + } + + for(uint16_t j = 0; j < instr->num_samples; ++j) { + /* Read sample data */ + xm_sample_t* sample = instr->samples + j; + uint32_t length = sample->length; + + if(sample->bits == 16) { + int16_t v = 0; + for(uint32_t k = 0; k < length; ++k) { + v = v + (int16_t)READ_U16(offset + (k << 1)); + sample->data16[k] = v; + } + offset += sample->length << 1; + } else { + int8_t v = 0; + for(uint32_t k = 0; k < length; ++k) { + v = v + (int8_t)READ_U8(offset + k); + sample->data8[k] = v; + } + offset += sample->length; + } + } + } + + return mempool; +} diff --git a/third-party/libxm/src/play.c b/third-party/libxm/src/play.c new file mode 100644 index 0000000..0565199 --- /dev/null +++ b/third-party/libxm/src/play.c @@ -0,0 +1,1428 @@ +/* Author: Romain "Artefact2" Dalmaso */ +/* Contributor: Daniel Oaks */ + +/* This program is free software. It comes without any warranty, to the + * extent permitted by applicable law. You can redistribute it and/or + * modify it under the terms of the Do What The Fuck You Want To Public + * License, Version 2, as published by Sam Hocevar. See + * http://sam.zoy.org/wtfpl/COPYING for more details. */ + +#include "xm_internal.h" +#include + +/* ----- Static functions ----- */ + +static float xm_waveform(xm_waveform_type_t, uint8_t); +static void xm_autovibrato(xm_context_t*, xm_channel_context_t*); +static void xm_vibrato(xm_context_t*, xm_channel_context_t*, uint8_t); +static void xm_tremolo(xm_context_t*, xm_channel_context_t*, uint8_t, uint16_t); +static void xm_arpeggio(xm_context_t*, xm_channel_context_t*, uint8_t, uint16_t); +static void xm_tone_portamento(xm_context_t*, xm_channel_context_t*); +static void xm_pitch_slide(xm_context_t*, xm_channel_context_t*, float); +static void xm_panning_slide(xm_channel_context_t*, uint8_t); +static void xm_volume_slide(xm_channel_context_t*, uint8_t); + +static float xm_envelope_lerp(xm_envelope_point_t*, xm_envelope_point_t*, uint16_t); +static void xm_envelope_tick(xm_channel_context_t*, xm_envelope_t*, uint16_t*, float*); +static void xm_envelopes(xm_channel_context_t*); + +static float xm_linear_period(float); +static float xm_linear_frequency(float); +static float xm_amiga_period(float); +static float xm_amiga_frequency(float); +static float xm_period(xm_context_t*, float); +static float xm_frequency(xm_context_t*, float, float, float); +static void xm_update_frequency(xm_context_t*, xm_channel_context_t*); + +static void xm_handle_note_and_instrument(xm_context_t*, xm_channel_context_t*, xm_pattern_slot_t*); +static void xm_trigger_note(xm_context_t*, xm_channel_context_t*, unsigned int flags); +static void xm_cut_note(xm_channel_context_t*); +static void xm_key_off(xm_channel_context_t*); + +static void xm_post_pattern_change(xm_context_t*); +static void xm_row(xm_context_t*); +static void xm_tick(xm_context_t*); + +static float xm_sample_at(xm_sample_t*, size_t); +static float xm_next_of_sample(xm_channel_context_t*); +static bool xm_sample(xm_context_t*, float*, float*); + +/* ----- Other oddities ----- */ + +#define XM_TRIGGER_KEEP_VOLUME (1 << 0) +#define XM_TRIGGER_KEEP_PERIOD (1 << 1) +#define XM_TRIGGER_KEEP_SAMPLE_POSITION (1 << 2) +#define XM_TRIGGER_KEEP_ENVELOPE (1 << 3) + +#define AMIGA_FREQ_SCALE 1024 + +static const uint32_t amiga_frequencies[] = { + 1712*AMIGA_FREQ_SCALE, 1616*AMIGA_FREQ_SCALE, 1525*AMIGA_FREQ_SCALE, 1440*AMIGA_FREQ_SCALE, /* C-2, C#2, D-2, D#2 */ + 1357*AMIGA_FREQ_SCALE, 1281*AMIGA_FREQ_SCALE, 1209*AMIGA_FREQ_SCALE, 1141*AMIGA_FREQ_SCALE, /* E-2, F-2, F#2, G-2 */ + 1077*AMIGA_FREQ_SCALE, 1017*AMIGA_FREQ_SCALE, 961*AMIGA_FREQ_SCALE, 907*AMIGA_FREQ_SCALE, /* G#2, A-2, A#2, B-2 */ + 856*AMIGA_FREQ_SCALE, /* C-3 */ +}; + +static const float multi_retrig_add[] = { + 0.f, -1.f, -2.f, -4.f, /* 0, 1, 2, 3 */ + -8.f, -16.f, 0.f, 0.f, /* 4, 5, 6, 7 */ + 0.f, 1.f, 2.f, 4.f, /* 8, 9, A, B */ + 8.f, 16.f, 0.f, 0.f /* C, D, E, F */ +}; + +static const float multi_retrig_multiply[] = { + 1.f, 1.f, 1.f, 1.f, /* 0, 1, 2, 3 */ + 1.f, 1.f, .6666667f, .5f, /* 4, 5, 6, 7 */ + 1.f, 1.f, 1.f, 1.f, /* 8, 9, A, B */ + 1.f, 1.f, 1.5f, 2.f /* C, D, E, F */ +}; + +#define XM_CLAMP_UP1F(vol, limit) do { \ + if((vol) > (limit)) (vol) = (limit); \ + } while(0) +#define XM_CLAMP_UP(vol) XM_CLAMP_UP1F((vol), 1.f) + +#define XM_CLAMP_DOWN1F(vol, limit) do { \ + if((vol) < (limit)) (vol) = (limit); \ + } while(0) +#define XM_CLAMP_DOWN(vol) XM_CLAMP_DOWN1F((vol), .0f) + +#define XM_CLAMP2F(vol, up, down) do { \ + if((vol) > (up)) (vol) = (up); \ + else if((vol) < (down)) (vol) = (down); \ + } while(0) +#define XM_CLAMP(vol) XM_CLAMP2F((vol), 1.f, .0f) + +#define XM_SLIDE_TOWARDS(val, goal, incr) do { \ + if((val) > (goal)) { \ + (val) -= (incr); \ + XM_CLAMP_DOWN1F((val), (goal)); \ + } else if((val) < (goal)) { \ + (val) += (incr); \ + XM_CLAMP_UP1F((val), (goal)); \ + } \ + } while(0) + +#define XM_LERP(u, v, t) ((u) + (t) * ((v) - (u))) +#define XM_INVERSE_LERP(u, v, lerp) (((lerp) - (u)) / ((v) - (u))) + +#define HAS_TONE_PORTAMENTO(s) ((s)->effect_type == 3 \ + || (s)->effect_type == 5 \ + || ((s)->volume_column >> 4) == 0xF) +#define HAS_ARPEGGIO(s) ((s)->effect_type == 0 \ + && (s)->effect_param != 0) +#define HAS_VIBRATO(s) ((s)->effect_type == 4 \ + || (s)->effect_type == 6 \ + || ((s)->volume_column >> 4) == 0xB) +#define NOTE_IS_VALID(n) ((n) > 0 && (n) < 97) + +/* ----- Function definitions ----- */ + +static float xm_waveform(xm_waveform_type_t waveform, uint8_t step) { + static unsigned int next_rand = 24492; + step %= 0x40; + + switch(waveform) { + + case XM_SINE_WAVEFORM: + /* Why not use a table? For saving space, and because there's + * very very little actual performance gain. */ + return -sinf(2.f * 3.141592f * (float)step / (float)0x40); + + case XM_RAMP_DOWN_WAVEFORM: + /* Ramp down: 1.0f when step = 0; -1.0f when step = 0x40 */ + return (float)(0x20 - step) / 0x20; + + case XM_SQUARE_WAVEFORM: + /* Square with a 50% duty */ + return (step >= 0x20) ? 1.f : -1.f; + + case XM_RANDOM_WAVEFORM: + /* Use the POSIX.1-2001 example, just to be deterministic + * across different machines */ + next_rand = next_rand * 1103515245 + 12345; + return (float)((next_rand >> 16) & 0x7FFF) / (float)0x4000 - 1.f; + + case XM_RAMP_UP_WAVEFORM: + /* Ramp up: -1.f when step = 0; 1.f when step = 0x40 */ + return (float)(step - 0x20) / 0x20; + + default: + break; + + } + + return .0f; +} + +static void xm_autovibrato(xm_context_t* ctx, xm_channel_context_t* ch) { + if(ch->instrument == NULL || ch->instrument->vibrato_depth == 0){ + if (ch->autovibrato_note_offset){ + ch->autovibrato_note_offset = 0.f; + xm_update_frequency(ctx, ch); + } + return; + } + xm_instrument_t* instr = ch->instrument; + float sweep = 1.f; + + if(ch->autovibrato_ticks < instr->vibrato_sweep) { + /* No idea if this is correct, but it sounds close enough… */ + sweep = XM_LERP(0.f, 1.f, (float)ch->autovibrato_ticks / (float)instr->vibrato_sweep); + } + + unsigned int step = ((ch->autovibrato_ticks++) * instr->vibrato_rate) >> 2; + ch->autovibrato_note_offset = .25f * xm_waveform(instr->vibrato_type, step) + * (float)instr->vibrato_depth / (float)0xF * sweep; + xm_update_frequency(ctx, ch); +} + +static void xm_vibrato(xm_context_t* ctx, xm_channel_context_t* ch, uint8_t param) { + ch->vibrato_ticks += (param >> 4); + ch->vibrato_note_offset = + -2.f + * xm_waveform(ch->vibrato_waveform, ch->vibrato_ticks) + * (float)(param & 0x0F) / (float)0xF; + xm_update_frequency(ctx, ch); +} + +static void xm_tremolo(xm_context_t* ctx, xm_channel_context_t* ch, uint8_t param, uint16_t pos) { + unsigned int step = pos * (param >> 4); + /* Not so sure about this, it sounds correct by ear compared with + * MilkyTracker, but it could come from other bugs */ + ch->tremolo_volume = -1.f * xm_waveform(ch->tremolo_waveform, step) + * (float)(param & 0x0F) / (float)0xF; +} + +static void xm_arpeggio(xm_context_t* ctx, xm_channel_context_t* ch, uint8_t param, uint16_t tick) { + switch(tick % 3) { + case 0: + ch->arp_in_progress = false; + ch->arp_note_offset = 0; + break; + case 2: + ch->arp_in_progress = true; + ch->arp_note_offset = param >> 4; + break; + case 1: + ch->arp_in_progress = true; + ch->arp_note_offset = param & 0x0F; + break; + } + + xm_update_frequency(ctx, ch); +} + +static void xm_tone_portamento(xm_context_t* ctx, xm_channel_context_t* ch) { + /* 3xx called without a note, wait until we get an actual + * target note. */ + if(ch->tone_portamento_target_period == 0.f) return; + + if(ch->period != ch->tone_portamento_target_period) { + XM_SLIDE_TOWARDS(ch->period, + ch->tone_portamento_target_period, + (ctx->module.frequency_type == XM_LINEAR_FREQUENCIES ? + 4.f : 1.f) * ch->tone_portamento_param + ); + xm_update_frequency(ctx, ch); + } +} + +static void xm_pitch_slide(xm_context_t* ctx, xm_channel_context_t* ch, float period_offset) { + /* Don't ask about the 4.f coefficient. I found mention of it + * nowhere. Found by ear™. */ + if(ctx->module.frequency_type == XM_LINEAR_FREQUENCIES) { + period_offset *= 4.f; + } + + ch->period += period_offset; + XM_CLAMP_DOWN(ch->period); + /* XXX: upper bound of period ? */ + + xm_update_frequency(ctx, ch); +} + +static void xm_panning_slide(xm_channel_context_t* ch, uint8_t rawval) { + float f; + + if((rawval & 0xF0) && (rawval & 0x0F)) { + /* Illegal state */ + return; + } + + if(rawval & 0xF0) { + /* Slide right */ + f = (float)(rawval >> 4) / (float)0xFF; + ch->panning += f; + XM_CLAMP_UP(ch->panning); + } else { + /* Slide left */ + f = (float)(rawval & 0x0F) / (float)0xFF; + ch->panning -= f; + XM_CLAMP_DOWN(ch->panning); + } +} + +static void xm_volume_slide(xm_channel_context_t* ch, uint8_t rawval) { + float f; + + if((rawval & 0xF0) && (rawval & 0x0F)) { + /* Illegal state */ + return; + } + + if(rawval & 0xF0) { + /* Slide up */ + f = (float)(rawval >> 4) / (float)0x40; + ch->volume += f; + XM_CLAMP_UP(ch->volume); + } else { + /* Slide down */ + f = (float)(rawval & 0x0F) / (float)0x40; + ch->volume -= f; + XM_CLAMP_DOWN(ch->volume); + } +} + +static float xm_envelope_lerp(xm_envelope_point_t* restrict a, xm_envelope_point_t* restrict b, uint16_t pos) { + /* Linear interpolation between two envelope points */ + if(pos <= a->frame) return a->value; + else if(pos >= b->frame) return b->value; + else { + float p = (float)(pos - a->frame) / (float)(b->frame - a->frame); + return a->value * (1 - p) + b->value * p; + } +} + +static void xm_post_pattern_change(xm_context_t* ctx) { + /* Loop if necessary */ + if(ctx->current_table_index >= ctx->module.length) { + ctx->current_table_index = ctx->module.restart_position; + } +} + +static float xm_linear_period(float note) { + return 7680.f - note * 64.f; +} + +static float xm_linear_frequency(float period) { + return 8363.f * powf(2.f, (4608.f - period) / 768.f); +} + +static float xm_amiga_period(float note) { + unsigned int intnote = note; + uint8_t a = intnote % 12; + int8_t octave = note / 12.f - 2; + int32_t p1 = amiga_frequencies[a], p2 = amiga_frequencies[a + 1]; + + if(octave > 0) { + p1 >>= octave; + p2 >>= octave; + } else if(octave < 0) { + p1 <<= (-octave); + p2 <<= (-octave); + } + + return XM_LERP(p1, p2, note - intnote) / AMIGA_FREQ_SCALE; +} + +static float xm_amiga_frequency(float period) { + if(period == .0f) return .0f; + + /* This is the PAL value. No reason to choose this one over the + * NTSC value. */ + return 7093789.2f / (period * 2.f); +} + +static float xm_period(xm_context_t* ctx, float note) { + switch(ctx->module.frequency_type) { + case XM_LINEAR_FREQUENCIES: + return xm_linear_period(note); + case XM_AMIGA_FREQUENCIES: + return xm_amiga_period(note); + } + return .0f; +} + +static float xm_frequency(xm_context_t* ctx, float period, float note_offset, float period_offset) { + uint8_t a; + int8_t octave; + float note; + int32_t p1, p2; + + switch(ctx->module.frequency_type) { + + case XM_LINEAR_FREQUENCIES: + return xm_linear_frequency(period - 64.f * note_offset - 16.f * period_offset); + + case XM_AMIGA_FREQUENCIES: + if(note_offset == 0) { + /* A chance to escape from insanity */ + return xm_amiga_frequency(period + 16.f * period_offset); + } + + /* FIXME: this is very crappy at best */ + a = octave = 0; + + /* Find the octave of the current period */ + period *= AMIGA_FREQ_SCALE; + if(period > amiga_frequencies[0]) { + --octave; + while(period > (amiga_frequencies[0] << (-octave))) --octave; + } else if(period < amiga_frequencies[12]) { + ++octave; + while(period < (amiga_frequencies[12] >> octave)) ++octave; + } + + /* Find the smallest note closest to the current period */ + for(uint8_t i = 0; i < 12; ++i) { + p1 = amiga_frequencies[i], p2 = amiga_frequencies[i + 1]; + + if(octave > 0) { + p1 >>= octave; + p2 >>= octave; + } else if(octave < 0) { + p1 <<= (-octave); + p2 <<= (-octave); + } + + if(p2 <= period && period <= p1) { + a = i; + break; + } + } + + if(XM_DEBUG && (p1 < period || p2 > period)) { + DEBUG("%" PRId32 " <= %f <= %" PRId32 " should hold but doesn't, this is a bug", p2, period, p1); + } + + note = 12.f * (octave + 2) + a + XM_INVERSE_LERP(p1, p2, period); + + return xm_amiga_frequency(xm_amiga_period(note + note_offset) + 16.f * period_offset); + + } + + return .0f; +} + +static void xm_update_frequency(xm_context_t* ctx, xm_channel_context_t* ch) { + ch->frequency = xm_frequency( + ctx, ch->period, + ch->arp_note_offset, + ch->vibrato_note_offset + ch->autovibrato_note_offset + ); + ch->step = ch->frequency / ctx->rate; +} + +static void xm_handle_note_and_instrument(xm_context_t* ctx, xm_channel_context_t* ch, + xm_pattern_slot_t* s) { + if(s->instrument > 0) { + if(HAS_TONE_PORTAMENTO(ch->current) && ch->instrument != NULL && ch->sample != NULL) { + /* Tone portamento in effect, unclear stuff happens */ + xm_trigger_note(ctx, ch, XM_TRIGGER_KEEP_PERIOD | XM_TRIGGER_KEEP_SAMPLE_POSITION); + } else if(s->note == 0 && ch->sample != NULL) { + /* Ghost instrument, trigger note */ + /* Sample position is kept, but envelopes are reset */ + xm_trigger_note(ctx, ch, XM_TRIGGER_KEEP_SAMPLE_POSITION); + } else if(s->instrument > ctx->module.num_instruments) { + /* Invalid instrument, Cut current note */ + xm_cut_note(ch); + ch->instrument = NULL; + ch->sample = NULL; + } else { + ch->instrument = ctx->module.instruments + (s->instrument - 1); + } + } + + if(NOTE_IS_VALID(s->note)) { + /* Yes, the real note number is s->note -1. Try finding + * THAT in any of the specs! :-) */ + + xm_instrument_t* instr = ch->instrument; + + if(HAS_TONE_PORTAMENTO(ch->current) && instr != NULL && ch->sample != NULL) { + /* Tone portamento in effect */ + ch->note = s->note + ch->sample->relative_note + ch->sample->finetune / 128.f - 1.f; + ch->tone_portamento_target_period = xm_period(ctx, ch->note); + } else if(instr == NULL || ch->instrument->num_samples == 0) { + /* Bad instrument */ + xm_cut_note(ch); + } else { + if(instr->sample_of_notes[s->note - 1] < instr->num_samples) { +#if XM_RAMPING + for(unsigned int z = 0; z < XM_SAMPLE_RAMPING_POINTS; ++z) { + ch->end_of_previous_sample[z] = xm_next_of_sample(ch); + } + ch->frame_count = 0; +#endif + ch->sample = instr->samples + instr->sample_of_notes[s->note - 1]; + ch->orig_note = ch->note = s->note + ch->sample->relative_note + + ch->sample->finetune / 128.f - 1.f; + if(s->instrument > 0) { + xm_trigger_note(ctx, ch, 0); + } else { + /* Ghost note: keep old volume */ + xm_trigger_note(ctx, ch, XM_TRIGGER_KEEP_VOLUME); + } + } else { + /* Bad sample */ + xm_cut_note(ch); + } + } + } else if(s->note == 97) { + /* Key Off */ + xm_key_off(ch); + } + + switch(s->volume_column >> 4) { + + case 0x5: + if(s->volume_column > 0x50) break; + case 0x1: + case 0x2: + case 0x3: + case 0x4: + /* Set volume */ + ch->volume = (float)(s->volume_column - 0x10) / (float)0x40; + break; + + case 0x8: /* Fine volume slide down */ + xm_volume_slide(ch, s->volume_column & 0x0F); + break; + + case 0x9: /* Fine volume slide up */ + xm_volume_slide(ch, s->volume_column << 4); + break; + + case 0xA: /* Set vibrato speed */ + ch->vibrato_param = (ch->vibrato_param & 0x0F) | ((s->volume_column & 0x0F) << 4); + break; + + case 0xC: /* Set panning */ + ch->panning = (float)( + ((s->volume_column & 0x0F) << 4) | (s->volume_column & 0x0F) + ) / (float)0xFF; + break; + + case 0xF: /* Tone portamento */ + if(s->volume_column & 0x0F) { + ch->tone_portamento_param = ((s->volume_column & 0x0F) << 4) + | (s->volume_column & 0x0F); + } + break; + + default: + break; + + } + + switch(s->effect_type) { + + case 1: /* 1xx: Portamento up */ + if(s->effect_param > 0) { + ch->portamento_up_param = s->effect_param; + } + break; + + case 2: /* 2xx: Portamento down */ + if(s->effect_param > 0) { + ch->portamento_down_param = s->effect_param; + } + break; + + case 3: /* 3xx: Tone portamento */ + if(s->effect_param > 0) { + ch->tone_portamento_param = s->effect_param; + } + break; + + case 4: /* 4xy: Vibrato */ + if(s->effect_param & 0x0F) { + /* Set vibrato depth */ + ch->vibrato_param = (ch->vibrato_param & 0xF0) | (s->effect_param & 0x0F); + } + if(s->effect_param >> 4) { + /* Set vibrato speed */ + ch->vibrato_param = (s->effect_param & 0xF0) | (ch->vibrato_param & 0x0F); + } + break; + + case 5: /* 5xy: Tone portamento + Volume slide */ + if(s->effect_param > 0) { + ch->volume_slide_param = s->effect_param; + } + break; + + case 6: /* 6xy: Vibrato + Volume slide */ + if(s->effect_param > 0) { + ch->volume_slide_param = s->effect_param; + } + break; + + case 7: /* 7xy: Tremolo */ + if(s->effect_param & 0x0F) { + /* Set tremolo depth */ + ch->tremolo_param = (ch->tremolo_param & 0xF0) | (s->effect_param & 0x0F); + } + if(s->effect_param >> 4) { + /* Set tremolo speed */ + ch->tremolo_param = (s->effect_param & 0xF0) | (ch->tremolo_param & 0x0F); + } + break; + + case 8: /* 8xx: Set panning */ + ch->panning = (float)s->effect_param / (float)0xFF; + break; + + case 9: /* 9xx: Sample offset */ + if(ch->sample != NULL && NOTE_IS_VALID(s->note)) { + uint32_t final_offset = s->effect_param << (ch->sample->bits == 16 ? 7 : 8); + if(final_offset >= ch->sample->length) { + /* Pretend the sample dosen't loop and is done playing */ + ch->sample_position = -1; + break; + } + ch->sample_position = final_offset; + } + break; + + case 0xA: /* Axy: Volume slide */ + if(s->effect_param > 0) { + ch->volume_slide_param = s->effect_param; + } + break; + + case 0xB: /* Bxx: Position jump */ + if(s->effect_param < ctx->module.length) { + ctx->position_jump = true; + ctx->jump_dest = s->effect_param; + ctx->jump_row = 0; + } + break; + + case 0xC: /* Cxx: Set volume */ + ch->volume = (float)((s->effect_param > 0x40) + ? 0x40 : s->effect_param) / (float)0x40; + break; + + case 0xD: /* Dxx: Pattern break */ + /* Jump after playing this line */ + ctx->pattern_break = true; + ctx->jump_row = (s->effect_param >> 4) * 10 + (s->effect_param & 0x0F); + break; + + case 0xE: /* EXy: Extended command */ + switch(s->effect_param >> 4) { + + case 1: /* E1y: Fine portamento up */ + if(s->effect_param & 0x0F) { + ch->fine_portamento_up_param = s->effect_param & 0x0F; + } + xm_pitch_slide(ctx, ch, -ch->fine_portamento_up_param); + break; + + case 2: /* E2y: Fine portamento down */ + if(s->effect_param & 0x0F) { + ch->fine_portamento_down_param = s->effect_param & 0x0F; + } + xm_pitch_slide(ctx, ch, ch->fine_portamento_down_param); + break; + + case 4: /* E4y: Set vibrato control */ + ch->vibrato_waveform = s->effect_param & 3; + ch->vibrato_waveform_retrigger = !((s->effect_param >> 2) & 1); + break; + + case 5: /* E5y: Set finetune */ + if(NOTE_IS_VALID(ch->current->note) && ch->sample != NULL) { + ch->note = ch->current->note + ch->sample->relative_note + + (float)(((s->effect_param & 0x0F) - 8) << 4) / 128.f - 1.f; + ch->period = xm_period(ctx, ch->note); + xm_update_frequency(ctx, ch); + } + break; + + case 6: /* E6y: Pattern loop */ + if(s->effect_param & 0x0F) { + if((s->effect_param & 0x0F) == ch->pattern_loop_count) { + /* Loop is over */ + ch->pattern_loop_count = 0; + break; + } + + /* Jump to the beginning of the loop */ + ch->pattern_loop_count++; + ctx->position_jump = true; + ctx->jump_row = ch->pattern_loop_origin; + ctx->jump_dest = ctx->current_table_index; + } else { + /* Set loop start point */ + ch->pattern_loop_origin = ctx->current_row; + /* Replicate FT2 E60 bug */ + ctx->jump_row = ch->pattern_loop_origin; + } + break; + + case 7: /* E7y: Set tremolo control */ + ch->tremolo_waveform = s->effect_param & 3; + ch->tremolo_waveform_retrigger = !((s->effect_param >> 2) & 1); + break; + + case 0xA: /* EAy: Fine volume slide up */ + if(s->effect_param & 0x0F) { + ch->fine_volume_slide_param = s->effect_param & 0x0F; + } + xm_volume_slide(ch, ch->fine_volume_slide_param << 4); + break; + + case 0xB: /* EBy: Fine volume slide down */ + if(s->effect_param & 0x0F) { + ch->fine_volume_slide_param = s->effect_param & 0x0F; + } + xm_volume_slide(ch, ch->fine_volume_slide_param); + break; + + case 0xD: /* EDy: Note delay */ + /* XXX: figure this out better. EDx triggers + * the note even when there no note and no + * instrument. But ED0 acts like like a ghost + * note, EDx (x ≠ 0) does not. */ + if(s->note == 0 && s->instrument == 0) { + unsigned int flags = XM_TRIGGER_KEEP_VOLUME; + + if(ch->current->effect_param & 0x0F) { + ch->note = ch->orig_note; + xm_trigger_note(ctx, ch, flags); + } else { + xm_trigger_note( + ctx, ch, + flags + | XM_TRIGGER_KEEP_PERIOD + | XM_TRIGGER_KEEP_SAMPLE_POSITION + ); + } + } + break; + + case 0xE: /* EEy: Pattern delay */ + ctx->extra_ticks = (ch->current->effect_param & 0x0F) * ctx->tempo; + break; + + default: + break; + + } + break; + + case 0xF: /* Fxx: Set tempo/BPM */ + if(s->effect_param > 0) { + if(s->effect_param <= 0x1F) { + ctx->tempo = s->effect_param; + } else { + ctx->bpm = s->effect_param; + } + } + break; + + case 16: /* Gxx: Set global volume */ + ctx->global_volume = (float)((s->effect_param > 0x40) + ? 0x40 : s->effect_param) / (float)0x40; + break; + + case 17: /* Hxy: Global volume slide */ + if(s->effect_param > 0) { + ch->global_volume_slide_param = s->effect_param; + } + break; + + case 21: /* Lxx: Set envelope position */ + ch->volume_envelope_frame_count = s->effect_param; + ch->panning_envelope_frame_count = s->effect_param; + break; + + case 25: /* Pxy: Panning slide */ + if(s->effect_param > 0) { + ch->panning_slide_param = s->effect_param; + } + break; + + case 27: /* Rxy: Multi retrig note */ + if(s->effect_param > 0) { + if((s->effect_param >> 4) == 0) { + /* Keep previous x value */ + ch->multi_retrig_param = (ch->multi_retrig_param & 0xF0) | (s->effect_param & 0x0F); + } else { + ch->multi_retrig_param = s->effect_param; + } + } + break; + + case 29: /* Txy: Tremor */ + if(s->effect_param > 0) { + /* Tremor x and y params do not appear to be separately + * kept in memory, unlike Rxy */ + ch->tremor_param = s->effect_param; + } + break; + + case 33: /* Xxy: Extra stuff */ + switch(s->effect_param >> 4) { + + case 1: /* X1y: Extra fine portamento up */ + if(s->effect_param & 0x0F) { + ch->extra_fine_portamento_up_param = s->effect_param & 0x0F; + } + xm_pitch_slide(ctx, ch, -1.0f * ch->extra_fine_portamento_up_param); + break; + + case 2: /* X2y: Extra fine portamento down */ + if(s->effect_param & 0x0F) { + ch->extra_fine_portamento_down_param = s->effect_param & 0x0F; + } + xm_pitch_slide(ctx, ch, ch->extra_fine_portamento_down_param); + break; + + default: + break; + + } + break; + + default: + break; + + } +} + +static void xm_trigger_note(xm_context_t* ctx, xm_channel_context_t* ch, unsigned int flags) { + if(!(flags & XM_TRIGGER_KEEP_SAMPLE_POSITION)) { + ch->sample_position = 0.f; + ch->ping = true; + } + + if(ch->sample != NULL) { + if(!(flags & XM_TRIGGER_KEEP_VOLUME)) { + ch->volume = ch->sample->volume; + } + + ch->panning = ch->sample->panning; + } + + if(!(flags & XM_TRIGGER_KEEP_ENVELOPE)) { + ch->sustained = true; + ch->fadeout_volume = ch->volume_envelope_volume = 1.0f; + ch->panning_envelope_panning = .5f; + ch->volume_envelope_frame_count = ch->panning_envelope_frame_count = 0; + } + ch->vibrato_note_offset = 0.f; + ch->tremolo_volume = 0.f; + ch->tremor_on = false; + + ch->autovibrato_ticks = 0; + + if(ch->vibrato_waveform_retrigger) { + ch->vibrato_ticks = 0; /* XXX: should the waveform itself also + * be reset to sine? */ + } + if(ch->tremolo_waveform_retrigger) { + ch->tremolo_ticks = 0; + } + + if(!(flags & XM_TRIGGER_KEEP_PERIOD)) { + ch->period = xm_period(ctx, ch->note); + xm_update_frequency(ctx, ch); + } + + ch->latest_trigger = ctx->generated_samples; + if(ch->instrument != NULL) { + ch->instrument->latest_trigger = ctx->generated_samples; + } + if(ch->sample != NULL) { + ch->sample->latest_trigger = ctx->generated_samples; + } +} + +static void xm_cut_note(xm_channel_context_t* ch) { + /* NB: this is not the same as Key Off */ + ch->volume = .0f; +} + +static void xm_key_off(xm_channel_context_t* ch) { + /* Key Off */ + ch->sustained = false; + + /* If no volume envelope is used, also cut the note */ + if(ch->instrument == NULL || !ch->instrument->volume_envelope.enabled) { + xm_cut_note(ch); + } +} + +static void xm_row(xm_context_t* ctx) { + static xm_pattern_slot_t empty_slot = {0}; + + if(ctx->position_jump) { + ctx->current_table_index = ctx->jump_dest; + ctx->current_row = ctx->jump_row; + ctx->position_jump = false; + ctx->pattern_break = false; + ctx->jump_row = 0; + xm_post_pattern_change(ctx); + } else if(ctx->pattern_break) { + ctx->current_table_index++; + ctx->current_row = ctx->jump_row; + ctx->pattern_break = false; + ctx->jump_row = 0; + xm_post_pattern_change(ctx); + } + + uint8_t pat_idx = ctx->module.pattern_table[ctx->current_table_index]; + xm_pattern_t* cur = (pat_idx < ctx->module.num_patterns ? ctx->module.patterns + pat_idx : NULL); + bool in_a_loop = false; + + /* Read notes… */ + for(uint8_t i = 0; i < ctx->module.num_channels; ++i) { + xm_pattern_slot_t* s = (cur ? cur->slots + ctx->current_row * ctx->module.num_channels + i : &empty_slot); + xm_channel_context_t* ch = ctx->channels + i; + + ch->current = s; + + if(s->effect_type != 0xE || s->effect_param >> 4 != 0xD) { + xm_handle_note_and_instrument(ctx, ch, s); + } else { + ch->note_delay_param = s->effect_param & 0x0F; + } + + if(!in_a_loop && ch->pattern_loop_count > 0) { + in_a_loop = true; + } + } + + if(!in_a_loop) { + /* No E6y loop is in effect (or we are in the first pass) */ + ctx->loop_count = (ctx->row_loop_count[MAX_NUM_ROWS * ctx->current_table_index + ctx->current_row]++); + } + + ctx->current_row++; /* Since this is an uint8, this line can + * increment from 255 to 0, in which case it + * is still necessary to go the next + * pattern. */ + if(!ctx->position_jump && !ctx->pattern_break && + (ctx->current_row >= (cur ? cur->num_rows : DEFAULT_PATTERN_LENGTH) || ctx->current_row == 0)) { + ctx->current_table_index++; + ctx->current_row = ctx->jump_row; /* This will be 0 most of + * the time, except when E60 + * is used */ + ctx->jump_row = 0; + xm_post_pattern_change(ctx); + } +} + +static void xm_envelope_tick(xm_channel_context_t* ch, + xm_envelope_t* env, + uint16_t* counter, + float* outval) { + if(env->num_points < 2) { + /* Don't really know what to do… */ + if(env->num_points == 1) { + /* XXX I am pulling this out of my ass */ + *outval = (float)env->points[0].value / (float)0x40; + if(*outval > 1) { + *outval = 1; + } + } + + return; + } else { + uint8_t j; + + if(env->loop_enabled) { + uint16_t loop_start = env->points[env->loop_start_point].frame; + uint16_t loop_end = env->points[env->loop_end_point].frame; + uint16_t loop_length = loop_end - loop_start; + + if(*counter >= loop_end) { + *counter -= loop_length; + } + } + + for(j = 0; j < (env->num_points - 2); ++j) { + if(env->points[j].frame <= *counter && + env->points[j+1].frame >= *counter) { + break; + } + } + + *outval = xm_envelope_lerp(env->points + j, env->points + j + 1, *counter) / (float)0x40; + + /* Make sure it is safe to increment frame count */ + if(!ch->sustained || !env->sustain_enabled || + *counter != env->points[env->sustain_point].frame) { + (*counter)++; + } + } +} + +static void xm_envelopes(xm_channel_context_t* ch) { + if(ch->instrument != NULL) { + if(ch->instrument->volume_envelope.enabled) { + if(!ch->sustained) { + ch->fadeout_volume -= (float)ch->instrument->volume_fadeout / 32768.f; + XM_CLAMP_DOWN(ch->fadeout_volume); + } + + xm_envelope_tick(ch, + &(ch->instrument->volume_envelope), + &(ch->volume_envelope_frame_count), + &(ch->volume_envelope_volume)); + } + + if(ch->instrument->panning_envelope.enabled) { + xm_envelope_tick(ch, + &(ch->instrument->panning_envelope), + &(ch->panning_envelope_frame_count), + &(ch->panning_envelope_panning)); + } + } +} + +static void xm_tick(xm_context_t* ctx) { + if(ctx->current_tick == 0) { + xm_row(ctx); + } + + for(uint8_t i = 0; i < ctx->module.num_channels; ++i) { + xm_channel_context_t* ch = ctx->channels + i; + + xm_envelopes(ch); + xm_autovibrato(ctx, ch); + + if(ch->arp_in_progress && !HAS_ARPEGGIO(ch->current)) { + ch->arp_in_progress = false; + ch->arp_note_offset = 0; + xm_update_frequency(ctx, ch); + } + if(ch->vibrato_in_progress && !HAS_VIBRATO(ch->current)) { + ch->vibrato_in_progress = false; + ch->vibrato_note_offset = 0.f; + xm_update_frequency(ctx, ch); + } + + switch(ch->current->volume_column >> 4) { + + case 0x6: /* Volume slide down */ + if(ctx->current_tick == 0) break; + xm_volume_slide(ch, ch->current->volume_column & 0x0F); + break; + + case 0x7: /* Volume slide up */ + if(ctx->current_tick == 0) break; + xm_volume_slide(ch, ch->current->volume_column << 4); + break; + + case 0xB: /* Vibrato */ + if(ctx->current_tick == 0) break; + ch->vibrato_in_progress = false; + xm_vibrato(ctx, ch, ch->vibrato_param); + break; + + case 0xD: /* Panning slide left */ + if(ctx->current_tick == 0) break; + xm_panning_slide(ch, ch->current->volume_column & 0x0F); + break; + + case 0xE: /* Panning slide right */ + if(ctx->current_tick == 0) break; + xm_panning_slide(ch, ch->current->volume_column << 4); + break; + + case 0xF: /* Tone portamento */ + if(ctx->current_tick == 0) break; + xm_tone_portamento(ctx, ch); + break; + + default: + break; + + } + + switch(ch->current->effect_type) { + + case 0: /* 0xy: Arpeggio */ + if(ch->current->effect_param > 0) { + char arp_offset = ctx->tempo % 3; + switch(arp_offset) { + case 2: /* 0 -> x -> 0 -> y -> x -> … */ + if(ctx->current_tick == 1) { + ch->arp_in_progress = true; + ch->arp_note_offset = ch->current->effect_param >> 4; + xm_update_frequency(ctx, ch); + break; + } + /* No break here, this is intended */ + case 1: /* 0 -> 0 -> y -> x -> … */ + if(ctx->current_tick == 0) { + ch->arp_in_progress = false; + ch->arp_note_offset = 0; + xm_update_frequency(ctx, ch); + break; + } + /* No break here, this is intended */ + case 0: /* 0 -> y -> x -> … */ + xm_arpeggio(ctx, ch, ch->current->effect_param, ctx->current_tick - arp_offset); + default: + break; + } + } + break; + + case 1: /* 1xx: Portamento up */ + if(ctx->current_tick == 0) break; + xm_pitch_slide(ctx, ch, -ch->portamento_up_param); + break; + + case 2: /* 2xx: Portamento down */ + if(ctx->current_tick == 0) break; + xm_pitch_slide(ctx, ch, ch->portamento_down_param); + break; + + case 3: /* 3xx: Tone portamento */ + if(ctx->current_tick == 0) break; + xm_tone_portamento(ctx, ch); + break; + + case 4: /* 4xy: Vibrato */ + if(ctx->current_tick == 0) break; + ch->vibrato_in_progress = true; + xm_vibrato(ctx, ch, ch->vibrato_param); + break; + + case 5: /* 5xy: Tone portamento + Volume slide */ + if(ctx->current_tick == 0) break; + xm_tone_portamento(ctx, ch); + xm_volume_slide(ch, ch->volume_slide_param); + break; + + case 6: /* 6xy: Vibrato + Volume slide */ + if(ctx->current_tick == 0) break; + ch->vibrato_in_progress = true; + xm_vibrato(ctx, ch, ch->vibrato_param); + xm_volume_slide(ch, ch->volume_slide_param); + break; + + case 7: /* 7xy: Tremolo */ + if(ctx->current_tick == 0) break; + xm_tremolo(ctx, ch, ch->tremolo_param, ch->tremolo_ticks++); + break; + + case 0xA: /* Axy: Volume slide */ + if(ctx->current_tick == 0) break; + xm_volume_slide(ch, ch->volume_slide_param); + break; + + case 0xE: /* EXy: Extended command */ + switch(ch->current->effect_param >> 4) { + + case 0x9: /* E9y: Retrigger note */ + if(ctx->current_tick != 0 && ch->current->effect_param & 0x0F) { + if(!(ctx->current_tick % (ch->current->effect_param & 0x0F))) { + xm_trigger_note(ctx, ch, XM_TRIGGER_KEEP_VOLUME); + xm_envelopes(ch); + } + } + break; + + case 0xC: /* ECy: Note cut */ + if((ch->current->effect_param & 0x0F) == ctx->current_tick) { + xm_cut_note(ch); + } + break; + + case 0xD: /* EDy: Note delay */ + if(ch->note_delay_param == ctx->current_tick) { + xm_handle_note_and_instrument(ctx, ch, ch->current); + xm_envelopes(ch); + } + break; + + default: + break; + + } + break; + + case 17: /* Hxy: Global volume slide */ + if(ctx->current_tick == 0) break; + if((ch->global_volume_slide_param & 0xF0) && + (ch->global_volume_slide_param & 0x0F)) { + /* Illegal state */ + break; + } + if(ch->global_volume_slide_param & 0xF0) { + /* Global slide up */ + float f = (float)(ch->global_volume_slide_param >> 4) / (float)0x40; + ctx->global_volume += f; + XM_CLAMP_UP(ctx->global_volume); + } else { + /* Global slide down */ + float f = (float)(ch->global_volume_slide_param & 0x0F) / (float)0x40; + ctx->global_volume -= f; + XM_CLAMP_DOWN(ctx->global_volume); + } + break; + + case 20: /* Kxx: Key off */ + /* Most documentations will tell you the parameter has no + * use. Don't be fooled. */ + if(ctx->current_tick == ch->current->effect_param) { + xm_key_off(ch); + } + break; + + case 25: /* Pxy: Panning slide */ + if(ctx->current_tick == 0) break; + xm_panning_slide(ch, ch->panning_slide_param); + break; + + case 27: /* Rxy: Multi retrig note */ + if(ctx->current_tick == 0) break; + if(((ch->multi_retrig_param) & 0x0F) == 0) break; + if((ctx->current_tick % (ch->multi_retrig_param & 0x0F)) == 0) { + xm_trigger_note(ctx, ch, XM_TRIGGER_KEEP_VOLUME | XM_TRIGGER_KEEP_ENVELOPE); + + /* Rxy doesn't affect volume if there's a command in the volume + column, or if the instrument has a volume envelope. */ + if (!ch->current->volume_column && !ch->instrument->volume_envelope.enabled){ + float v = ch->volume * multi_retrig_multiply[ch->multi_retrig_param >> 4] + + multi_retrig_add[ch->multi_retrig_param >> 4] / (float)0x40; + XM_CLAMP(v); + ch->volume = v; + } + } + break; + + case 29: /* Txy: Tremor */ + if(ctx->current_tick == 0) break; + ch->tremor_on = ( + (ctx->current_tick - 1) % ((ch->tremor_param >> 4) + (ch->tremor_param & 0x0F) + 2) + > + (ch->tremor_param >> 4) + ); + break; + + default: + break; + + } + + float panning, volume; + + panning = ch->panning + + (ch->panning_envelope_panning - .5f) * (.5f - fabsf(ch->panning - .5f)) * 2.0f; + + if(ch->tremor_on) { + volume = .0f; + } else { + volume = ch->volume + ch->tremolo_volume; + XM_CLAMP(volume); + volume *= ch->fadeout_volume * ch->volume_envelope_volume; + } + +#if XM_RAMPING + /* See https://modarchive.org/forums/index.php?topic=3517.0 + * and https://github.com/Artefact2/libxm/pull/16 */ + ch->target_volume[0] = volume * sqrtf(1.f - panning); + ch->target_volume[1] = volume * sqrtf(panning); +#else + ch->actual_volume[0] = volume * sqrtf(1.f - panning); + ch->actual_volume[1] = volume * sqrtf(panning); +#endif + } + + ctx->current_tick++; + if(ctx->current_tick >= ctx->tempo + ctx->extra_ticks) { + ctx->current_tick = 0; + ctx->extra_ticks = 0; + } + + /* FT2 manual says number of ticks / second = BPM * 0.4 */ + ctx->remaining_samples_in_tick += (float)ctx->rate / ((float)ctx->bpm * 0.4f); +} + +static float xm_sample_at(xm_sample_t* sample, size_t k) { + return sample->bits == 8 ? (sample->data8[k] / 128.f) : (sample->data16[k] / 32768.f); +} + +static float xm_next_of_sample(xm_channel_context_t* ch) { + if(ch->instrument == NULL || ch->sample == NULL || ch->sample_position < 0) { +#if XM_RAMPING + if(ch->frame_count < XM_SAMPLE_RAMPING_POINTS) { + return XM_LERP(ch->end_of_previous_sample[ch->frame_count], .0f, + (float)ch->frame_count / (float)XM_SAMPLE_RAMPING_POINTS); + } +#endif + return .0f; + } + if(ch->sample->length == 0) { + return .0f; + } + + float u, v, t; + uint32_t a, b; + a = (uint32_t)ch->sample_position; /* This cast is fine, + * sample_position will not + * go above integer + * ranges */ + if(XM_LINEAR_INTERPOLATION) { + b = a + 1; + t = ch->sample_position - a; /* Cheaper than fmodf(., 1.f) */ + } + u = xm_sample_at(ch->sample, a); + + switch(ch->sample->loop_type) { + + case XM_NO_LOOP: + if(XM_LINEAR_INTERPOLATION) { + v = (b < ch->sample->length) ? xm_sample_at(ch->sample, b) : .0f; + } + ch->sample_position += ch->step; + if(ch->sample_position >= ch->sample->length) { + ch->sample_position = -1; + } + break; + + case XM_FORWARD_LOOP: + if(XM_LINEAR_INTERPOLATION) { + v = xm_sample_at( + ch->sample, + (b == ch->sample->loop_end) ? ch->sample->loop_start : b + ); + } + ch->sample_position += ch->step; + while(ch->sample_position >= ch->sample->loop_end) { + ch->sample_position -= ch->sample->loop_length; + } + break; + + case XM_PING_PONG_LOOP: + if(ch->ping) { + ch->sample_position += ch->step; + } else { + ch->sample_position -= ch->step; + } + /* XXX: this may not work for very tight ping-pong loops + * (ie switches direction more than once per sample */ + if(ch->ping) { + if(XM_LINEAR_INTERPOLATION) { + v = xm_sample_at(ch->sample, (b >= ch->sample->loop_end) ? a : b); + } + if(ch->sample_position >= ch->sample->loop_end) { + ch->ping = false; + ch->sample_position = (ch->sample->loop_end << 1) - ch->sample_position; + } + /* sanity checking */ + if(ch->sample_position >= ch->sample->length) { + ch->ping = false; + ch->sample_position -= ch->sample->length - 1; + } + } else { + if(XM_LINEAR_INTERPOLATION) { + v = u; + u = xm_sample_at( + ch->sample, + (b == 1 || b - 2 <= ch->sample->loop_start) ? a : (b - 2) + ); + } + if(ch->sample_position <= ch->sample->loop_start) { + ch->ping = true; + ch->sample_position = (ch->sample->loop_start << 1) - ch->sample_position; + } + /* sanity checking */ + if(ch->sample_position <= .0f) { + ch->ping = true; + ch->sample_position = .0f; + } + } + break; + + default: + v = .0f; + break; + } + + float endval = (XM_LINEAR_INTERPOLATION ? XM_LERP(u, v, t) : u); + +#if XM_RAMPING + if(ch->frame_count < XM_SAMPLE_RAMPING_POINTS) { + /* Smoothly transition between old and new sample. */ + return XM_LERP(ch->end_of_previous_sample[ch->frame_count], endval, + (float)ch->frame_count / (float)XM_SAMPLE_RAMPING_POINTS); + } +#endif + + return endval; +} + +static bool xm_sample(xm_context_t* ctx, float* left, float* right) { + if(ctx->remaining_samples_in_tick <= 0) { + xm_tick(ctx); + } + ctx->remaining_samples_in_tick--; + + *left = 0.f; + *right = 0.f; + + if(ctx->max_loop_count > 0 && ctx->loop_count >= ctx->max_loop_count) { + return false; + } + + for(uint8_t i = 0; i < ctx->module.num_channels; ++i) { + xm_channel_context_t* ch = ctx->channels + i; + + if(ch->instrument == NULL || ch->sample == NULL || ch->sample_position < 0) { + continue; + } + + const float fval = xm_next_of_sample(ch); + + if(!ch->muted && !ch->instrument->muted) { + *left += fval * ch->actual_volume[0]; + *right += fval * ch->actual_volume[1]; + } + +#if XM_RAMPING + ch->frame_count++; + XM_SLIDE_TOWARDS(ch->actual_volume[0], ch->target_volume[0], ctx->volume_ramp); + XM_SLIDE_TOWARDS(ch->actual_volume[1], ch->target_volume[1], ctx->volume_ramp); +#endif + } + + const float fgvol = ctx->global_volume * ctx->amplification; + *left *= fgvol; + *right *= fgvol; + + if(XM_DEBUG) { + if(fabs(*left) > 1 || fabs(*right) > 1) { + DEBUG("clipping frame: %f %f, this is a bad module or a libxm bug", *left, *right); + } + } + + return true; +} + +int xm_generate_samples(xm_context_t* ctx, float* output, size_t numsamples) { + int generated_samples = 0; + for(size_t i = 0; i < numsamples; i++, generated_samples++) { + if (!xm_sample(ctx, output + (2 * i), output + (2 * i + 1))) + break; + } + + ctx->generated_samples += generated_samples; + return generated_samples; +} + +void xm_restart(xm_context_t* ctx) { + xm_seek(ctx, 0, 0, 0); + ctx->loop_count = 0; + ctx->generated_samples = 0; + memset(ctx->row_loop_count, 0, ctx->module.length * MAX_NUM_ROWS * sizeof(uint8_t)); +} diff --git a/third-party/libxm/src/xm.c b/third-party/libxm/src/xm.c new file mode 100644 index 0000000..0ba6332 --- /dev/null +++ b/third-party/libxm/src/xm.c @@ -0,0 +1,9 @@ +/* Author: Romain "Artefact2" Dalmaso */ + +/* This program is free software. It comes without any warranty, to the + * extent permitted by applicable law. You can redistribute it and/or + * modify it under the terms of the Do What The Fuck You Want To Public + * License, Version 2, as published by Sam Hocevar. See + * http://sam.zoy.org/wtfpl/COPYING for more details. */ + +#include "xm_internal.h" diff --git a/third-party/libxm/src/xm_internal.h b/third-party/libxm/src/xm_internal.h new file mode 100644 index 0000000..53b9d64 --- /dev/null +++ b/third-party/libxm/src/xm_internal.h @@ -0,0 +1,317 @@ +/* Author: Romain "Artefact2" Dalmaso */ + +/* This program is free software. It comes without any warranty, to the + * extent permitted by applicable law. You can redistribute it and/or + * modify it under the terms of the Do What The Fuck You Want To Public + * License, Version 2, as published by Sam Hocevar. See + * http://sam.zoy.org/wtfpl/COPYING for more details. */ + +#include +#include +#include +#include +#include + +#if XM_DEBUG +#include +#define DEBUG(fmt, ...) do { \ + fprintf(stderr, "%s(): " fmt "\n", __func__, __VA_ARGS__); \ + fflush(stderr); \ + } while(0) +#else +#define DEBUG(...) +#endif + +#if XM_BIG_ENDIAN +#error "Big endian platforms are not yet supported, sorry" +/* Make sure the compiler stops, even if #error is ignored */ +extern int __fail[-1]; +#endif + +/* ----- XM constants ----- */ + +#define SAMPLE_NAME_LENGTH 22 +#define INSTRUMENT_HEADER_LENGTH 263 +#define INSTRUMENT_NAME_LENGTH 22 +#define MODULE_NAME_LENGTH 20 +#define TRACKER_NAME_LENGTH 20 +#define PATTERN_ORDER_TABLE_LENGTH 256 +#define NUM_NOTES 96 +#define NUM_ENVELOPE_POINTS 12 +#define MAX_NUM_ROWS 256 +#define DEFAULT_PATTERN_LENGTH 64 + +#if XM_RAMPING +#define XM_SAMPLE_RAMPING_POINTS 0x20 +#endif + +/* ----- Data types ----- */ + +enum xm_waveform_type_e { + XM_SINE_WAVEFORM = 0, + XM_RAMP_DOWN_WAVEFORM = 1, + XM_SQUARE_WAVEFORM = 2, + XM_RANDOM_WAVEFORM = 3, + XM_RAMP_UP_WAVEFORM = 4, +}; +typedef enum xm_waveform_type_e xm_waveform_type_t; + +enum xm_loop_type_e { + XM_NO_LOOP, + XM_FORWARD_LOOP, + XM_PING_PONG_LOOP, +}; +typedef enum xm_loop_type_e xm_loop_type_t; + +enum xm_frequency_type_e { + XM_LINEAR_FREQUENCIES, + XM_AMIGA_FREQUENCIES, +}; +typedef enum xm_frequency_type_e xm_frequency_type_t; + +struct xm_envelope_point_s { + uint16_t frame; + uint16_t value; +}; +typedef struct xm_envelope_point_s xm_envelope_point_t; + +struct xm_envelope_s { + xm_envelope_point_t points[NUM_ENVELOPE_POINTS]; + uint8_t num_points; + uint8_t sustain_point; + uint8_t loop_start_point; + uint8_t loop_end_point; + bool enabled; + bool sustain_enabled; + bool loop_enabled; +}; +typedef struct xm_envelope_s xm_envelope_t; + +struct xm_sample_s { +#if XM_STRINGS + char name[SAMPLE_NAME_LENGTH + 1]; +#endif + uint8_t bits; /* Either 8 or 16 */ + + uint32_t length; + uint32_t loop_start; + uint32_t loop_length; + uint32_t loop_end; + float volume; + int8_t finetune; + xm_loop_type_t loop_type; + float panning; + int8_t relative_note; + uint64_t latest_trigger; + + union { + int8_t* data8; + int16_t* data16; + }; +}; +typedef struct xm_sample_s xm_sample_t; + +struct xm_instrument_s { +#if XM_STRINGS + char name[INSTRUMENT_NAME_LENGTH + 1]; +#endif + uint16_t num_samples; + uint8_t sample_of_notes[NUM_NOTES]; + xm_envelope_t volume_envelope; + xm_envelope_t panning_envelope; + xm_waveform_type_t vibrato_type; + uint8_t vibrato_sweep; + uint8_t vibrato_depth; + uint8_t vibrato_rate; + uint16_t volume_fadeout; + uint64_t latest_trigger; + bool muted; + + xm_sample_t* samples; +}; +typedef struct xm_instrument_s xm_instrument_t; + +struct xm_pattern_slot_s { + uint8_t note; /* 1-96, 97 = Key Off note */ + uint8_t instrument; /* 1-128 */ + uint8_t volume_column; + uint8_t effect_type; + uint8_t effect_param; +}; +typedef struct xm_pattern_slot_s xm_pattern_slot_t; + +struct xm_pattern_s { + uint16_t num_rows; + xm_pattern_slot_t* slots; /* Array of size num_rows * num_channels */ +}; +typedef struct xm_pattern_s xm_pattern_t; + +struct xm_module_s { +#if XM_STRINGS + char name[MODULE_NAME_LENGTH + 1]; + char trackername[TRACKER_NAME_LENGTH + 1]; +#endif + uint16_t length; + uint16_t restart_position; + uint16_t num_channels; + uint16_t num_patterns; + uint16_t num_instruments; + xm_frequency_type_t frequency_type; + uint8_t pattern_table[PATTERN_ORDER_TABLE_LENGTH]; + + xm_pattern_t* patterns; + xm_instrument_t* instruments; /* Instrument 1 has index 0, + * instrument 2 has index 1, etc. */ +}; +typedef struct xm_module_s xm_module_t; + +struct xm_channel_context_s { + float note; + float orig_note; /* The original note before effect modifications, as read in the pattern. */ + xm_instrument_t* instrument; /* Could be NULL */ + xm_sample_t* sample; /* Could be NULL */ + xm_pattern_slot_t* current; + + float sample_position; + float period; + float frequency; + float step; + bool ping; /* For ping-pong samples: true is -->, false is <-- */ + + float volume; /* Ideally between 0 (muted) and 1 (loudest) */ + float panning; /* Between 0 (left) and 1 (right); 0.5 is centered */ + + uint16_t autovibrato_ticks; + + bool sustained; + float fadeout_volume; + float volume_envelope_volume; + float panning_envelope_panning; + uint16_t volume_envelope_frame_count; + uint16_t panning_envelope_frame_count; + + float autovibrato_note_offset; + + bool arp_in_progress; + uint8_t arp_note_offset; + uint8_t volume_slide_param; + uint8_t fine_volume_slide_param; + uint8_t global_volume_slide_param; + uint8_t panning_slide_param; + uint8_t portamento_up_param; + uint8_t portamento_down_param; + uint8_t fine_portamento_up_param; + uint8_t fine_portamento_down_param; + uint8_t extra_fine_portamento_up_param; + uint8_t extra_fine_portamento_down_param; + uint8_t tone_portamento_param; + float tone_portamento_target_period; + uint8_t multi_retrig_param; + uint8_t note_delay_param; + uint8_t pattern_loop_origin; /* Where to restart a E6y loop */ + uint8_t pattern_loop_count; /* How many loop passes have been done */ + bool vibrato_in_progress; + xm_waveform_type_t vibrato_waveform; + bool vibrato_waveform_retrigger; /* True if a new note retriggers the waveform */ + uint8_t vibrato_param; + uint16_t vibrato_ticks; /* Position in the waveform */ + float vibrato_note_offset; + xm_waveform_type_t tremolo_waveform; + bool tremolo_waveform_retrigger; + uint8_t tremolo_param; + uint8_t tremolo_ticks; + float tremolo_volume; + uint8_t tremor_param; + bool tremor_on; + + uint64_t latest_trigger; + bool muted; + +#if XM_RAMPING + /* These values are updated at the end of each tick, to save + * a couple of float operations on every generated sample. */ + float target_volume[2]; + + unsigned long frame_count; + float end_of_previous_sample[XM_SAMPLE_RAMPING_POINTS]; +#endif + + float actual_volume[2]; +}; +typedef struct xm_channel_context_s xm_channel_context_t; + +struct xm_context_s { + size_t ctx_size; /* Must be first, see xm_create_context_from_libxmize() */ + xm_module_t module; + uint32_t rate; + + uint16_t tempo; + uint16_t bpm; + float global_volume; + float amplification; + +#if XM_RAMPING + /* How much is a channel final volume allowed to change per + * sample; this is used to avoid abrubt volume changes which + * manifest as "clicks" in the generated sound. */ + float volume_ramp; +#endif + + uint8_t current_table_index; + uint8_t current_row; + uint16_t current_tick; /* Can go below 255, with high tempo and a pattern delay */ + float remaining_samples_in_tick; + uint64_t generated_samples; + + bool position_jump; + bool pattern_break; + uint8_t jump_dest; + uint8_t jump_row; + + /* Extra ticks to be played before going to the next row - + * Used for EEy effect */ + uint16_t extra_ticks; + + uint8_t* row_loop_count; /* Array of size MAX_NUM_ROWS * module_length */ + uint8_t loop_count; + uint8_t max_loop_count; + + xm_channel_context_t* channels; +}; + +/* ----- Internal API ----- */ + +/** Check the module data for errors/inconsistencies. + * + * @returns 0 if everything looks OK. Module should be safe to load. + */ +int xm_check_sanity_preload(const char*, size_t); + +/** Check a loaded module for errors/inconsistencies. + * + * @returns 0 if everything looks OK. + */ +int xm_check_sanity_postload(xm_context_t*); + +/** Get the number of bytes needed to store the module data in a + * dynamically allocated blank context. + * + * Things that are dynamically allocated: + * - sample data + * - sample structures in instruments + * - pattern data + * - row loop count arrays + * - pattern structures in module + * - instrument structures in module + * - channel contexts + * - context structure itself + + * @returns 0 if everything looks OK. + */ +size_t xm_get_memory_needed_for_context(const char*, size_t); + +/** Populate the context from module data. + * + * @returns pointer to the memory pool + */ +char* xm_load_module(xm_context_t*, const char*, size_t, char*);