From 6698ff505ca505a6581045c41e3b24bd8b26e457 Mon Sep 17 00:00:00 2001 From: NishiOwO Date: Sun, 20 Apr 2025 16:02:19 +0900 Subject: [PATCH] format --- engine/external/jar/jar_mod.h | 2 +- engine/external/jar/jar_xm.h | 32 ++++++++++++++++---------------- 2 files changed, 17 insertions(+), 17 deletions(-) diff --git a/engine/external/jar/jar_mod.h b/engine/external/jar/jar_mod.h index 8a02f30..791939c 100644 --- a/engine/external/jar/jar_mod.h +++ b/engine/external/jar/jar_mod.h @@ -1317,7 +1317,7 @@ void jar_mod_unload(jar_mod_context_t* modctx) { mulong jar_mod_load_file(jar_mod_context_t* modctx, const char* filename) { mulong fsize = 0; - FILE* f; + FILE* f; if(modctx->modfile) { JARMOD_FREE(modctx->modfile); modctx->modfile = 0; diff --git a/engine/external/jar/jar_xm.h b/engine/external/jar/jar_xm.h index 51e225e..5df3861 100644 --- a/engine/external/jar/jar_xm.h +++ b/engine/external/jar/jar_xm.h @@ -871,8 +871,8 @@ char* jar_xm_load_module(jar_xm_context_t* ctx, const char* moddata, size_t modd jar_xm_module_t* mod = &(ctx->module); gf_uint16_t i; gf_uint16_t j; - gf_uint32_t header_size; - gf_uint16_t flags; + gf_uint32_t header_size; + gf_uint16_t flags; /* Read XM header */ READ_MEMCPY(mod->name, offset + 17, MODULE_NAME_LENGTH); @@ -894,7 +894,7 @@ char* jar_xm_load_module(jar_xm_context_t* ctx, const char* moddata, size_t modd mod->instruments = (jar_xm_instrument_t*)mempool; mempool += mod->num_instruments * sizeof(jar_xm_instrument_t); - flags = READ_U32(offset + 14); + flags = READ_U32(offset + 14); mod->frequency_type = (flags & (1 << 0)) ? jar_xm_LINEAR_FREQUENCIES : jar_xm_AMIGA_FREQUENCIES; ctx->tempo = READ_U16(offset + 16); @@ -1020,7 +1020,7 @@ char* jar_xm_load_module(jar_xm_context_t* ctx, const char* moddata, size_t modd instr->panning_envelope.loop_start_point = READ_U8(offset + 231); instr->panning_envelope.loop_end_point = READ_U8(offset + 232); - flags = READ_U8(offset + 233); + flags = READ_U8(offset + 233); instr->volume_envelope.enabled = flags & (1 << 0); instr->volume_envelope.sustain_enabled = flags & (1 << 1); instr->volume_envelope.loop_enabled = flags & (1 << 2); @@ -1052,7 +1052,7 @@ char* jar_xm_load_module(jar_xm_context_t* ctx, const char* moddata, size_t modd for(j = 0; j < instr->num_samples; ++j) { /* Read sample header */ - gf_uint8_t flags; + gf_uint8_t flags; jar_xm_sample_t* sample = instr->samples + j; sample->length = READ_U32(offset); @@ -1266,8 +1266,8 @@ static float jar_xm_waveform(jar_xm_waveform_type_t waveform, gf_uint8_t step) { static void jar_xm_autovibrato(jar_xm_context_t* ctx, jar_xm_channel_context_t* ch) { jar_xm_instrument_t* instr; - float sweep; - unsigned int step; + float sweep; + unsigned int step; if(ch->instrument == NULL || ch->instrument->vibrato_depth == 0) return; instr = ch->instrument; sweep = 1.f; @@ -1277,7 +1277,7 @@ static void jar_xm_autovibrato(jar_xm_context_t* ctx, jar_xm_channel_context_t* sweep = jar_xm_LERP(0.f, 1.f, (float)ch->autovibrato_ticks / (float)instr->vibrato_sweep); } - step = ((ch->autovibrato_ticks++) * instr->vibrato_rate) >> 2; + step = ((ch->autovibrato_ticks++) * instr->vibrato_rate) >> 2; ch->autovibrato_note_offset = .25f * jar_xm_waveform(instr->vibrato_type, step) * (float)instr->vibrato_depth / (float)0xF * sweep; jar_xm_update_frequency(ctx, ch); } @@ -1443,7 +1443,7 @@ static float jar_xm_frequency(jar_xm_context_t* ctx, float period, float note_of gf_int8_t octave; float note; gf_uint16_t p1, p2; - gf_uint8_t i; + gf_uint8_t i; switch(ctx->module.frequency_type) { @@ -1930,8 +1930,8 @@ static void jar_xm_key_off(jar_xm_channel_context_t* ch) { static void jar_xm_row(jar_xm_context_t* ctx) { jar_xm_pattern_t* cur; - gf_bool_t in_a_loop; - gf_uint8_t i; + gf_bool_t in_a_loop; + gf_uint8_t i; if(ctx->position_jump) { ctx->current_table_index = ctx->jump_dest; ctx->current_row = ctx->jump_row; @@ -1947,7 +1947,7 @@ static void jar_xm_row(jar_xm_context_t* ctx) { jar_xm_post_pattern_change(ctx); } - cur = ctx->module.patterns + ctx->module.pattern_table[ctx->current_table_index]; + cur = ctx->module.patterns + ctx->module.pattern_table[ctx->current_table_index]; in_a_loop = gf_false; /* Read notes… */ @@ -2294,7 +2294,7 @@ static void jar_xm_tick(jar_xm_context_t* ctx) { static float jar_xm_next_of_sample(jar_xm_channel_context_t* ch) { float u, v, t; gf_uint32_t a, b; - float endval; + float endval; if(ch->instrument == NULL || ch->sample == NULL || ch->sample_position < 0) { #if JAR_XM_RAMPING @@ -2396,8 +2396,8 @@ static float jar_xm_next_of_sample(jar_xm_channel_context_t* ch) { } static void jar_xm_sample(jar_xm_context_t* ctx, float* left, float* right) { -gf_uint8_t i; -float fgvol; + gf_uint8_t i; + float fgvol; if(ctx->remaining_samples_in_tick <= 0) { jar_xm_tick(ctx); } @@ -2412,7 +2412,7 @@ float fgvol; for(i = 0; i < ctx->module.num_channels; ++i) { jar_xm_channel_context_t* ch = ctx->channels + i; - float fval; + float fval; if(ch->instrument == NULL || ch->sample == NULL || ch->sample_position < 0) { continue;