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oppai.c
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oppai.c
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/*
* this is free and unencumbered software released into the public domain.
* refer to the attached UNLICENSE or http://unlicense.org/
* -- usage: ---------------------------------------------------------------
* #define OPPAI_IMPLEMENTATION
* #include "../oppai.c"
*
* int main() {
* ezpp_t ez = ezpp_new();
* ezpp_set_mods(ez, MODS_HD | MODS_DT);
* ezpp(ez, "-");
* printf("%gpp\n", ezpp_pp(ez));
* return 0;
* }
* ------------------------------------------------------------------------
* $ gcc test.c
* $ cat /path/to/file.osu | ./a.out
*/
#if defined(_WIN32) && !defined(OPPAI_IMPLEMENTATION)
#ifdef OPPAI_EXPORT
#define OPPAIAPI __declspec(dllexport)
#elif defined(OPPAI_STATIC_HEADER)
#define OPPAIAPI
#else
#define OPPAIAPI __declspec(dllimport)
#endif
#else
#define OPPAIAPI
#endif
typedef struct ezpp* ezpp_t; /* opaque handle */
OPPAIAPI ezpp_t ezpp_new(void);
OPPAIAPI void ezpp_free(ezpp_t ez);
OPPAIAPI int ezpp(ezpp_t ez, char* map);
OPPAIAPI float ezpp_pp(ezpp_t ez);
OPPAIAPI float ezpp_stars(ezpp_t ez);
/*
* the above is all you need for basic usage. below are some advanced api's
* and usage examples
*
* - if map is "-" the map is read from standard input
* - you can use ezpp_data if you already have raw beatmap data in memory
* - if autocalc is set to 1, the results will be automatically refreshed
* when you change parameters. if reparsing is required, the last passed
* map or map data will be used
* - if map is 0 (NULL), difficulty calculation and map parsing are skipped
* and you must set at least mode, aim_stars, speed_stars, nobjects,
* base_ar, base_od, max_combo, nsliders, ncircles
* - if aim_stars or speed_stars are set difficulty calculation is also
* skipped but values are taken from map
* - setting mods or cs resets aim_stars and speed_stars, set those last
* = setting end resets accuracy_percent
* - if mode_override is set, std maps are converted to other modes
* - mode defaults to MODE_STD or the map's mode
* - mods default to MODS_NOMOD
* - combo defaults to full combo
* - nmiss defaults to 0
* - score_version defaults to scorev1
* - if accuracy_percent is set, n300/100/50 are automatically
* calculated and stored
* - if n300/100/50 are set, accuracy_percent is automatically
* calculated and stored
* - if none of the above are set, SS (100%) is assumed
* - if end is set, the map will be cut to this object index
* - if base_ar/od/cs are set, they will override the map's values
* - when you change map and you're reusing the handle, you should reset
* ar/od/cs/hp to -1 otherwise it will override them with the previous
* map's values
* - in autocalc mode, calling ezpp with a non-NULL map always resets
* ar/od/cs/hp overrides to -1 so you don't have to
*/
OPPAIAPI void ezpp_set_autocalc(ezpp_t ez, int autocalc);
OPPAIAPI int ezpp_autocalc(ezpp_t ez);
OPPAIAPI int ezpp_data(ezpp_t ez, char* data, int data_size);
OPPAIAPI float ezpp_aim_stars(ezpp_t ez);
OPPAIAPI float ezpp_speed_stars(ezpp_t ez);
OPPAIAPI float ezpp_aim_pp(ezpp_t ez);
OPPAIAPI float ezpp_speed_pp(ezpp_t ez);
OPPAIAPI float ezpp_acc_pp(ezpp_t ez);
OPPAIAPI float ezpp_accuracy_percent(ezpp_t ez);
OPPAIAPI int ezpp_n300(ezpp_t ez);
OPPAIAPI int ezpp_n100(ezpp_t ez);
OPPAIAPI int ezpp_n50(ezpp_t ez);
OPPAIAPI int ezpp_nmiss(ezpp_t ez);
OPPAIAPI float ezpp_ar(ezpp_t ez);
OPPAIAPI float ezpp_cs(ezpp_t ez);
OPPAIAPI float ezpp_od(ezpp_t ez);
OPPAIAPI float ezpp_hp(ezpp_t ez);
OPPAIAPI char* ezpp_artist(ezpp_t ez);
OPPAIAPI char* ezpp_artist_unicode(ezpp_t ez);
OPPAIAPI char* ezpp_title(ezpp_t ez);
OPPAIAPI char* ezpp_title_unicode(ezpp_t ez);
OPPAIAPI char* ezpp_version(ezpp_t ez);
OPPAIAPI char* ezpp_creator(ezpp_t ez);
OPPAIAPI int ezpp_ncircles(ezpp_t ez);
OPPAIAPI int ezpp_nsliders(ezpp_t ez);
OPPAIAPI int ezpp_nspinners(ezpp_t ez);
OPPAIAPI int ezpp_nobjects(ezpp_t ez);
OPPAIAPI float ezpp_odms(ezpp_t ez);
OPPAIAPI int ezpp_mode(ezpp_t ez);
OPPAIAPI int ezpp_combo(ezpp_t ez);
OPPAIAPI int ezpp_max_combo(ezpp_t ez);
OPPAIAPI int ezpp_mods(ezpp_t ez);
OPPAIAPI int ezpp_score_version(ezpp_t ez);
OPPAIAPI float ezpp_time_at(ezpp_t ez, int i); /* milliseconds */
OPPAIAPI float ezpp_strain_at(ezpp_t ez, int i, int difficulty_type);
OPPAIAPI int ezpp_ntiming_points(ezpp_t ez);
OPPAIAPI float ezpp_timing_time(ezpp_t ez, int i); /* milliseconds */
OPPAIAPI float ezpp_timing_ms_per_beat(ezpp_t ez, int i);
OPPAIAPI int ezpp_timing_change(ezpp_t ez, int i);
OPPAIAPI void ezpp_set_aim_stars(ezpp_t ez, float aim_stars);
OPPAIAPI void ezpp_set_speed_stars(ezpp_t ez, float speed_stars);
OPPAIAPI void ezpp_set_base_ar(ezpp_t ez, float ar);
OPPAIAPI void ezpp_set_base_od(ezpp_t ez, float od);
OPPAIAPI void ezpp_set_base_cs(ezpp_t ez, float cs);
OPPAIAPI void ezpp_set_base_hp(ezpp_t ez, float hp);
OPPAIAPI void ezpp_set_mode_override(ezpp_t ez, int mode_override);
OPPAIAPI void ezpp_set_mode(ezpp_t ez, int mode);
OPPAIAPI void ezpp_set_mods(ezpp_t ez, int mods);
OPPAIAPI void ezpp_set_combo(ezpp_t ez, int combo);
OPPAIAPI void ezpp_set_nmiss(ezpp_t ez, int nmiss);
OPPAIAPI void ezpp_set_score_version(ezpp_t ez, int score_version);
OPPAIAPI void ezpp_set_accuracy_percent(ezpp_t ez, float accuracy_percent);
OPPAIAPI void ezpp_set_accuracy(ezpp_t ez, int n100, int n50);
OPPAIAPI void ezpp_set_end(ezpp_t ez, int end);
OPPAIAPI void ezpp_set_end_time(ezpp_t ez, float end);
/*
* these will make a copy of mapfile/data and free it automatically. this
* is slow but useful when working with bindings in other langs where
* pointers to strings aren't guaranteed to persist like python3
*/
OPPAIAPI int ezpp_dup(ezpp_t ez, char* mapfile);
OPPAIAPI int ezpp_data_dup(ezpp_t ez, char* data, int data_size);
/* errors -------------------------------------------------------------- */
/*
* all functions that return int can return errors in the form
* of a negative value. check if the return value is < 0 and call
* errstr to get the error message
*/
#define ERR_MORE (-1)
#define ERR_SYNTAX (-2)
#define ERR_TRUNCATED (-3)
#define ERR_NOTIMPLEMENTED (-4)
#define ERR_IO (-5)
#define ERR_FORMAT (-6)
#define ERR_OOM (-7)
OPPAIAPI char* errstr(int err);
/* version info -------------------------------------------------------- */
OPPAIAPI void oppai_version(int* major, int* minor, int* patch);
OPPAIAPI char* oppai_version_str(void);
/* --------------------------------------------------------------------- */
#define MODE_STD 0
#define MODE_TAIKO 1
#define DIFF_SPEED 0
#define DIFF_AIM 1
#define MODS_NOMOD 0
#define MODS_NF (1<<0)
#define MODS_EZ (1<<1)
#define MODS_TD (1<<2)
#define MODS_HD (1<<3)
#define MODS_HR (1<<4)
#define MODS_SD (1<<5)
#define MODS_DT (1<<6)
#define MODS_RX (1<<7)
#define MODS_HT (1<<8)
#define MODS_NC (1<<9)
#define MODS_FL (1<<10)
#define MODS_AT (1<<11)
#define MODS_SO (1<<12)
#define MODS_AP (1<<13)
#define MODS_PF (1<<14)
#define MODS_KEY4 (1<<15) /* TODO: what are these abbreviated to? */
#define MODS_KEY5 (1<<16)
#define MODS_KEY6 (1<<17)
#define MODS_KEY7 (1<<18)
#define MODS_KEY8 (1<<19)
#define MODS_FADEIN (1<<20)
#define MODS_RANDOM (1<<21)
#define MODS_CINEMA (1<<22)
#define MODS_TARGET (1<<23)
#define MODS_KEY9 (1<<24)
#define MODS_KEYCOOP (1<<25)
#define MODS_KEY1 (1<<26)
#define MODS_KEY3 (1<<27)
#define MODS_KEY2 (1<<28)
#define MODS_SCOREV2 (1<<29)
#define MODS_TOUCH_DEVICE MODS_TD
#define MODS_NOVIDEO MODS_TD /* never forget */
#define MODS_SPEED_CHANGING (MODS_DT | MODS_HT | MODS_NC)
#define MODS_MAP_CHANGING (MODS_HR | MODS_EZ | MODS_SPEED_CHANGING)
/* this is all you need to know for normal usage. internals below */
/* ##################################################################### */
/* ##################################################################### */
/* ##################################################################### */
#ifdef OPPAI_EXPORT
#define OPPAI_IMPLEMENTATION
#endif
#ifdef OPPAI_IMPLEMENTATION
#include <stdio.h>
#include <stdarg.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>
#define OPPAI_VERSION_MAJOR 4
#define OPPAI_VERSION_MINOR 1
#define OPPAI_VERSION_PATCH 0
#define STRINGIFY_(x) #x
#define STRINGIFY(x) STRINGIFY_(x)
#define OPPAI_VERSION_STRING \
STRINGIFY(OPPAI_VERSION_MAJOR) "." \
STRINGIFY(OPPAI_VERSION_MINOR) "." \
STRINGIFY(OPPAI_VERSION_PATCH)
OPPAIAPI
void oppai_version(int* major, int* minor, int* patch) {
*major = OPPAI_VERSION_MAJOR;
*minor = OPPAI_VERSION_MINOR;
*patch = OPPAI_VERSION_PATCH;
}
OPPAIAPI
char* oppai_version_str() {
return OPPAI_VERSION_STRING;
}
/* error utils --------------------------------------------------------- */
int info(char* fmt, ...) {
int res;
va_list va;
va_start(va, fmt);
res = vfprintf(stderr, fmt, va);
va_end(va);
return res;
}
OPPAIAPI
char* errstr(int err) {
switch (err) {
case ERR_MORE: return "call me again with more data";
case ERR_SYNTAX: return "syntax error";
case ERR_TRUNCATED:
return "data was truncated, possibly because it was too big";
case ERR_NOTIMPLEMENTED:
return "requested a feature that isn't implemented";
case ERR_IO: return "i/o error";
case ERR_FORMAT: return "invalid input format";
case ERR_OOM: return "out of memory";
}
info("W: got unknown error %d\n", err);
return "unknown error";
}
/* math ---------------------------------------------------------------- */
#define log10f (float)log10
#define al_round(x) (float)floor((x) + 0.5f)
#define al_min(a, b) ((a) < (b) ? (a) : (b))
#define al_max(a, b) ((a) > (b) ? (a) : (b))
#ifndef M_PI
#define M_PI 3.14159265358979323846
#endif
float get_inf(void) {
static unsigned raw = 0x7F800000;
float* p = (float*)&raw;
return *p;
}
float get_nan(void) {
static unsigned raw = 0x7FFFFFFF;
float* p = (float*)&raw;
return *p;
}
/* dst = a - b */
void v2f_sub(float* dst, float* a, float* b) {
dst[0] = a[0] - b[0];
dst[1] = a[1] - b[1];
}
float v2f_len(float* v) {
return (float)sqrt(v[0] * v[0] + v[1] * v[1]);
}
float v2f_dot(float* a, float* b) {
return a[0] * b[0] + a[1] * b[1];
}
/* https://www.doc.ic.ac.uk/%7Eeedwards/compsys/float/nan.html */
int is_nan(float b) {
unsigned* p = (void*)&b;
return (
(*p > 0x7F800000 && *p < 0x80000000) ||
(*p > 0x7FBFFFFF && *p <= 0xFFFFFFFF)
);
}
/* https://www.doc.ic.ac.uk/%7Eeedwards/compsys/float/nan.html */
int is_inf(float b) {
int* p = (int*)&b;
return *p == 0x7F800000 || *p == 0xFF800000;
}
/* string utils -------------------------------------------------------- */
int whitespace(char c) {
switch (c) {
case '\r':
case '\n':
case '\t':
case ' ':
return 1;
}
return 0;
}
/* non-null terminated string, used internally for parsing */
typedef struct slice {
char* start;
char* end; /* *(end - 1) is the last character */
} slice_t;
int slice_write(slice_t* s, FILE* f) {
return (int)fwrite(s->start, 1, s->end - s->start, f);
}
int slice_whitespace(slice_t* s) {
char* p = s->start;
for (; p < s->end; ++p) {
if (!whitespace(*p)) {
return 0;
}
}
return 1;
}
/* trims leading and trailing whitespace */
void slice_trim(slice_t* s) {
for (; s->start < s->end && whitespace(*s->start); ++s->start);
for (; s->end > s->start && whitespace(*(s->end-1)); --s->end);
}
int slice_cmp(slice_t* s, char* str) {
int len = (int)strlen(str);
int s_len = (int)(s->end - s->start);
if (len < s_len) {
return -1;
}
if (len > s_len) {
return 1;
}
return strncmp(s->start, str, len);
}
int slice_len(slice_t* s) {
return (int)(s->end - s->start);
}
/*
* splits s at any of the separators in separator_list and stores
* pointers to the strings in arr.
* returns the number of elements written to arr.
* if more elements than nmax are found, err is set to
* ERR_TRUNCATED
*/
int slice_split(slice_t* s, char* separator_list, slice_t* arr,
int nmax, int* err)
{
int res = 0;
char* p = s->start;
char* pprev = p;
if (!nmax) {
return 0;
}
if (!*separator_list) {
*arr = *s;
return 1;
}
for (; p <= s->end; ++p) {
char* sep = separator_list;
for (; *sep; ++sep) {
if (p >= s->end || *sep == *p) {
if (res >= nmax) {
*err = ERR_TRUNCATED;
goto exit;
}
arr[res].start = pprev;
arr[res].end = p;
pprev = p + 1;
++res;
break;
}
}
}
exit:
return res;
}
/* array --------------------------------------------------------------- */
#define array_t(type) \
struct { \
int cap; \
int len; \
type* data; \
}
#define array_reserve(arr, n) \
array_reserve_i(n, array_unpack(arr))
#define array_free(arr) \
array_free_i(array_unpack(arr))
#define array_alloc(arr) \
(array_reserve((arr), (arr)->len + 1) \
? &(arr)->data[(arr)->len++] \
: 0)
#define array_append(arr, x) \
(array_reserve((arr), (arr)->len + 1) \
? ((arr)->data[(arr)->len++] = (x), 1) \
: 0)
/* internal helpers, not to be used directly */
#define array_unpack(arr) \
&(arr)->cap, \
&(arr)->len, \
(void**)&(arr)->data, \
(int)sizeof((arr)->data[0])
int array_reserve_i(int n, int* cap, int* len, void** data, int esize) {
(void)len;
if (*cap <= n) {
void* newdata;
int newcap = *cap ? *cap * 2 : 16;
newdata = realloc(*data, esize * newcap);
if (!newdata) {
return 0;
}
*data = newdata;
*cap = newcap;
}
return 1;
}
void array_free_i(int* cap, int* len, void** data, int esize) {
(void)esize;
free(*data);
*cap = 0;
*len = 0;
*data = 0;
}
/* --------------------------------------------------------------------- */
#define OBJ_CIRCLE (1<<0)
#define OBJ_SLIDER (1<<1)
#define OBJ_SPINNER (1<<3)
#define SOUND_NONE 0
#define SOUND_NORMAL (1<<0)
#define SOUND_WHISTLE (1<<1)
#define SOUND_FINISH (1<<2)
#define SOUND_CLAP (1<<3)
typedef struct timing {
float time; /* milliseconds */
float ms_per_beat;
int change; /* if 0, ms_per_beat is -100.0f * sv_multiplier */
float px_per_beat;
/* taiko stuff */
float beat_len;
float velocity;
} timing_t;
typedef struct object {
float time; /* milliseconds */
int type;
/* only for taiko maps */
int nsound_types;
int* sound_types;
/* only used by d_calc */
float normpos[2];
float angle;
float strains[2];
int is_single; /* 1 if diff calc sees this as a singletap */
float delta_time;
float d_distance;
int timing_point;
float pos[2];
float distance; /* only for sliders */
int repetitions;
/* taiko stuff */
float duration;
float tick_spacing;
int slider_is_drum_roll;
} object_t;
/*
* exposing the struct would cut down lines of code but makes it harder
* to use from langs that aren't c/c++ or don't have the same memory
* alignment etc
*/
#define AUTOCALC_BIT (1<<0)
#define OWNS_MAP_BIT (1<<1) /* map/data freed on ezpp{,_data}, ezpp_free */
struct ezpp {
char* map;
char* data;
int data_size;
int flags;
int format_version;
int mode, mode_override, original_mode;
int score_version;
int mods, combo;
float accuracy_percent;
int n300, n100, n50, nmiss;
int end;
float end_time;
float base_ar, base_cs, base_od, base_hp;
int max_combo;
char* title;
char* title_unicode;
char* artist;
char* artist_unicode;
char* creator;
char* version;
int ncircles, nsliders, nspinners, nobjects;
float ar, od, cs, hp, odms, sv, tick_rate, speed_mul;
float stars;
float aim_stars, aim_difficulty, aim_length_bonus;
float speed_stars, speed_difficulty, speed_length_bonus;
float pp, aim_pp, speed_pp, acc_pp;
/* parser */
char section[64];
char buf[0xFFFF];
int p_flags;
array_t(object_t) objects;
array_t(timing_t) timing_points;
/* diffcalc */
float interval_end;
float max_strain;
array_t(float) highest_strains;
/* allocator */
char* block;
char* end_of_block;
array_t(char*) blocks;
};
/* memory arena (allocator) -------------------------------------------- */
#define M_ALIGN sizeof(void*)
#define M_BLOCK_SIZE 4096
/* aligns x down to a power-of-two value a */
#define bit_align_down(x, a) \
((x) & ~((a) - 1))
/* aligns x up to a power-of-two value a */
#define bit_align_up(x, a) \
bit_align_down((x) + (a) - 1, a)
int m_reserve(ezpp_t ez, int min_size) {
int size;
char* new_block;
if (ez->end_of_block - ez->block >= min_size) {
return 1;
}
size = bit_align_up(al_max(min_size, M_BLOCK_SIZE), M_ALIGN);
new_block = malloc(size);
if (!new_block) {
return 0;
}
ez->block = new_block;
ez->end_of_block = new_block + size;
array_append(&ez->blocks, ez->block);
return 1;
}
void* m_alloc(ezpp_t ez, int size) {
void* res;
if (!m_reserve(ez, size)) {
return 0;
}
size = bit_align_up(size, M_ALIGN);
res = ez->block;
ez->block += size;
return res;
}
char* m_strndup(ezpp_t ez, char* s, int n) {
char* res = m_alloc(ez, n + 1);
if (res) {
memcpy(res, s, n);
res[n] = 0;
}
return res;
}
void m_free(ezpp_t ez) {
int i;
for (i = 0; i < ez->blocks.len; ++i) {
free(ez->blocks.data[i]);
}
array_free(&ez->blocks);
ez->block = 0;
ez->end_of_block = 0;
}
/* mods ---------------------------------------------------------------- */
float od10_ms[] = { 20, 20 }; /* std, taiko */
float od0_ms[] = { 80, 50 };
#define AR0_MS 1800.0f
#define AR5_MS 1200.0f
#define AR10_MS 450.0f
float od_ms_step[] = { 6.0f, 3.0f };
#define AR_MS_STEP1 120.f /* ar0-5 */
#define AR_MS_STEP2 150.f /* ar5-10 */
/*
* stats must be capped to 0-10 before HT/DT which brings them to a range
* of -4.42f to 11.08f for OD and -5 to 11 for AR
*/
int mods_apply(ezpp_t ez) {
float od_ar_hp_multiplier, cs_multiplier, arms;
switch (ez->mode) {
case MODE_STD:
case MODE_TAIKO:
break;
default:
info("this gamemode is not yet supported for mods calc\n");
return ERR_NOTIMPLEMENTED;
}
ez->speed_mul = 1;
if (!(ez->mods & MODS_MAP_CHANGING)) {
ez->odms = od0_ms[ez->mode] - (float)ceil(od_ms_step[ez->mode] * ez->od);
return 0;
}
if (ez->mods & (MODS_DT | MODS_NC)) {
ez->speed_mul *= 1.5f;
}
if (ez->mods & MODS_HT) {
ez->speed_mul *= 0.75f;
}
/* global multipliers */
od_ar_hp_multiplier = 1;
if (ez->mods & MODS_HR) od_ar_hp_multiplier *= 1.4f;
if (ez->mods & MODS_EZ) od_ar_hp_multiplier *= 0.5f;
ez->od *= od_ar_hp_multiplier;
ez->odms = od0_ms[ez->mode] - (float)ceil(od_ms_step[ez->mode] * ez->od);
ez->odms = al_min(od0_ms[ez->mode], al_max(od10_ms[ez->mode], ez->odms));
ez->odms /= ez->speed_mul;
ez->od = (od0_ms[ez->mode] - ez->odms) / od_ms_step[ez->mode];
ez->ar *= od_ar_hp_multiplier;
arms = ez->ar <= 5
? (AR0_MS - AR_MS_STEP1 * (ez->ar - 0))
: (AR5_MS - AR_MS_STEP2 * (ez->ar - 5));
arms = al_min(AR0_MS, al_max(AR10_MS, arms));
arms /= ez->speed_mul;
ez->ar = arms > AR5_MS
? (0 + (AR0_MS - arms) / AR_MS_STEP1)
: (5 + (AR5_MS - arms) / AR_MS_STEP2);
cs_multiplier = 1;
if (ez->mods & MODS_HR) cs_multiplier = 1.3f;
if (ez->mods & MODS_EZ) cs_multiplier = 0.5f;
ez->cs *= cs_multiplier;
ez->cs = al_max(0.0f, al_min(10.0f, ez->cs));
ez->hp = al_min(ez->hp * od_ar_hp_multiplier, 10);
return 0;
}
/* beatmap parser ------------------------------------------------------ */
/*
* comments in beatmaps can only be an entire line because
* some properties such as author can contain //
*
* all p_* functions expect s to be a single line and trimmed
* on errors, p_* functions return < 0 error codes otherwise they
* return n bytes consumed
*/
#define P_OVERRIDE_MODE (1<<0) /* mode_override */
#define P_FOUND_AR (1<<1)
#define CIRCLESIZE_BUFF_TRESHOLD 30.0f /* non-normalized diameter */
#define PLAYFIELD_WIDTH 512.0f /* in osu!pixels */
#define PLAYFIELD_HEIGHT 384.0f
float playfield_center[] = {
PLAYFIELD_WIDTH / 2.0f, PLAYFIELD_HEIGHT / 2.0f
};
void print_line(slice_t* line) {
info("in line: ");
slice_write(line, stderr);
info("\n");
}
int p_warn(char* e, slice_t* line) {
info(e);
info("\n");
print_line(line);
return 0;
}
/* consume until any of the characters in separators is found */
int p_consume_til(slice_t* s, char* separators, slice_t* dst) {
char* p = s->start;
dst->start = s->start;
for (; p < s->end; ++p) {
char* sep;
for (sep = separators; *sep; ++sep) {
if (*p == *sep) {
dst->start = s->start;
dst->end = p;
return (int)(p - s->start);
}
}
}
dst->end = p;
return ERR_MORE;
}
float p_float(slice_t* value) {
float res;
char* p = value->start;
if (*p == '-') {
res = -1;
++p;
} else {
res = 1;
}
/* infinity symbol */
if (!strncmp(p, "\xe2\x88\x9e", 3)) {
res *= get_inf();
} else {
if (sscanf(value->start, "%f", &res) != 1) {
info("W: failed to parse float ");
slice_write(value, stderr);
info("\n");
res = 0;
}
}
return res;
}
/* [name] */
int p_section_name(slice_t* s, slice_t* name) {
int n;
slice_t p = *s;
if (*p.start++ != '[') {
return ERR_SYNTAX;
}
n = p_consume_til(&p, "]", name);
if (n < 0) {
return n;
}
p.start += n;
if (p.start != p.end - 1) { /* must end in ] */
return ERR_SYNTAX;
}
return (int)(p.start - s->start);
}
/* name: value (results are trimmed) */
int p_property(slice_t* s, slice_t* name, slice_t* value) {
int n;
char* p = s->start;
n = p_consume_til(s, ":", name);
if (n < 0) {
return n;
}
p += n;
++p; /* skip : */
value->start = p;
value->end = s->end;
slice_trim(name);
slice_trim(value);
return (int)(s->end - s->start);
}
char* p_slicedup(ezpp_t ez, slice_t* s) {
return m_strndup(ez, s->start, slice_len(s));
}
int p_metadata(ezpp_t ez, slice_t* line) {
slice_t name, value;
int n = p_property(line, &name, &value);
if (n < 0) {
return p_warn("W: malformed metadata line", line);
}
if (!slice_cmp(&name, "Title")) {
ez->title = p_slicedup(ez, &value);
} else if (!slice_cmp(&name, "TitleUnicode")) {
ez->title_unicode = p_slicedup(ez, &value);
} else if (!slice_cmp(&name, "Artist")) {
ez->artist = p_slicedup(ez, &value);
} else if (!slice_cmp(&name, "ArtistUnicode")) {
ez->artist_unicode = p_slicedup(ez, &value);
} else if (!slice_cmp(&name, "Creator")) {
ez->creator = p_slicedup(ez, &value);
} else if (!slice_cmp(&name, "Version")) {
ez->version = p_slicedup(ez, &value);
}
return n;
}
int p_general(ezpp_t ez, slice_t* line) {
slice_t name, value;
int n;
n = p_property(line, &name, &value);
if (n < 0) {
return p_warn("W: malformed general line", line);
}
if (!slice_cmp(&name, "Mode")) {
if (sscanf(value.start, "%d", &ez->original_mode) != 1){
return ERR_SYNTAX;
}
if (ez->p_flags & P_OVERRIDE_MODE) {
ez->mode = ez->mode_override;
} else {
ez->mode = ez->original_mode;
}
switch (ez->mode) {
case MODE_STD:
case MODE_TAIKO:
break;
default:
return ERR_NOTIMPLEMENTED;
}
}
return n;
}
int p_difficulty(ezpp_t ez, slice_t* line) {
slice_t name, value;
int n = p_property(line, &name, &value);
if (n < 0) {
return p_warn("W: malformed difficulty line", line);
}
if (!slice_cmp(&name, "CircleSize")) {
ez->cs = p_float(&value);
} else if (!slice_cmp(&name, "OverallDifficulty")) {
ez->od = p_float(&value);
} else if (!slice_cmp(&name, "ApproachRate")) {
ez->ar = p_float(&value);
ez->p_flags |= P_FOUND_AR;
} else if (!slice_cmp(&name, "HPDrainRate")) {
ez->hp = p_float(&value);
} else if (!slice_cmp(&name, "SliderMultiplier")) {
ez->sv = p_float(&value);
} else if (!slice_cmp(&name, "SliderTickRate")) {
ez->tick_rate = p_float(&value);
}
return n;
}
/*
* time, ms_per_beat, time_signature_id, sample_set_id,
* sample_bank_id, sample_volume, is_timing_change, effect_flags
*
* everything after ms_per_beat is optional
*/
int p_timing(ezpp_t ez, slice_t* line) {
int res = 0;
int n, i;
int err = 0;
slice_t split[8];
timing_t* t = array_alloc(&ez->timing_points);
if (!t) {
return ERR_OOM;
}
t->change = 1;
n = slice_split(line, ",", split, 8, &err);
if (err < 0) {
if (err == ERR_TRUNCATED) {
info("W: timing point with trailing values");
print_line(line);
} else {
return err;
}
}
if (n < 2) {
return p_warn("W: malformed timing point", line);
}
res = (int)(split[n - 1].end - line->start);
for (i = 0; i < n; ++i) {
slice_trim(&split[i]);
}
t->time = p_float(&split[0]);
t->ms_per_beat = p_float(&split[1]);
if (n >= 7) {
if (slice_len(&split[6]) < 1) {
t->change = 1;
} else {
t->change = *split[6].start != '0';
}
}
return res;
}
int p_objects(ezpp_t ez, slice_t* line) {
object_t* o;
int err = 0;
int ne;
slice_t e[11];
if (ez->end > 0 && ez->objects.len >= ez->end) {
return 0;
}
o = array_alloc(&ez->objects);
if (o) {
memset(o, 0, sizeof(*o));
} else {
return ERR_OOM;
}
ne = slice_split(line, ",", e, 11, &err);
if (err < 0) {
if (err == ERR_TRUNCATED) {
info("W: object with trailing values\n");
print_line(line);
} else {
return err;
}
}
if (ne < 5) {
return p_warn("W: malformed hitobject", line);
}
o->time = p_float(&e[2]);
if (is_inf(o->time)) {
o->time = 0.0f;
info("W: object with infinite time\n");
print_line(line);
}
if (ez->end_time > 0 && o->time >= ez->end_time) {
--ez->objects.len;
return 0;
}