198 lines
5.2 KiB
C
198 lines
5.2 KiB
C
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#include "./linear.h"
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#include <assert.h>
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#include <math.h>
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#include <stdbool.h>
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#include <stdint.h>
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#include <msgpack.h>
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#include "util/coly2d/shape.h"
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#include "util/math/constant.h"
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#include "util/math/vector.h"
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#include "util/mpkutil/get.h"
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#include "util/mpkutil/pack.h"
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#include "core/locommon/msgpack.h"
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#include "core/locommon/position.h"
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#include "core/loeffect/effect.h"
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#include "core/loentity/entity.h"
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#include "./base.h"
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#include "./misc.h"
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#define LOBULLET_LINEAR_PARAM_TO_PACK_EACH_(PROC) do { \
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PROC("owner", owner); \
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PROC("pos", pos); \
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PROC("size", size); \
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PROC("velocity", velocity); \
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PROC("acceleration", acceleration); \
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PROC("color", color); \
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PROC("duration", duration); \
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PROC("knockback", knockback); \
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PROC("effect", effect); \
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PROC("since", since); \
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} while (0)
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#define LOBULLET_LINEAR_PARAM_TO_PACK_COUNT 10
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_Static_assert(sizeof(lobullet_linear_param_t) <= LOBULLET_BASE_DATA_MAX_SIZE);
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static bool lobullet_linear_update_(lobullet_base_t* base) {
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assert(base != NULL);
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const lobullet_linear_param_t* p = (typeof(p)) base->data;
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const float t = (base->ticker->time - p->since)/1000.f;
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base->super.owner = p->owner;
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/* ---- movement ---- */
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vec2_t v1;
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vec2_mul(&v1, &p->velocity, t);
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vec2_t v2;
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vec2_mul(&v2, &p->acceleration, t*t/2);
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base->super.super.pos = p->pos;
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vec2_addeq(&base->super.super.pos.fract, &v1);
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vec2_addeq(&base->super.super.pos.fract, &v2);
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locommon_position_reduce(&base->super.super.pos);
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/* ---- velocity ---- */
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vec2_mul(&base->super.velocity, &p->acceleration, t);
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vec2_addeq(&base->super.velocity, &p->velocity);
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/* ---- angle ---- */
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const float theta = vec2_pow_length(&base->super.velocity) != 0?
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atan2f(base->super.velocity.y, base->super.velocity.x): 0;
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base->super.shape.size = p->size;
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base->super.shape.angle = theta;
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/* ---- parameter update ---- */
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base->cache.toxic = true;
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base->cache.effect = p->effect;
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base->cache.knockback = (typeof(base->cache.knockback)) {
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.acceleration = p->knockback,
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.algorithm = LOBULLET_BASE_KNOCKBACK_ALGORITHM_VELOCITY,
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};
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return p->since + p->duration > base->ticker->time;
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}
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bool lobullet_linear_param_valid(const lobullet_linear_param_t* param) {
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return
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param != NULL &&
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locommon_position_valid(¶m->pos) &&
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vec2_valid(¶m->size) &&
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vec2_valid(¶m->velocity) &&
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vec2_valid(¶m->acceleration) &&
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param->duration > 0;
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}
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void lobullet_linear_param_pack(
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const lobullet_linear_param_t* p, msgpack_packer* packer) {
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assert(lobullet_linear_param_valid(p));
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assert(packer != NULL);
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msgpack_pack_map(packer, LOBULLET_LINEAR_PARAM_TO_PACK_COUNT);
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# define pack_(name, var) do { \
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mpkutil_pack_str(packer, name); \
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LOCOMMON_MSGPACK_PACK_ANY(packer, &p->var); \
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} while (0)
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LOBULLET_LINEAR_PARAM_TO_PACK_EACH_(pack_);
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# undef pack_
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}
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bool lobullet_linear_param_unpack(
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lobullet_linear_param_t* p, const msgpack_object* obj) {
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assert(p != NULL);
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const msgpack_object_map* root = mpkutil_get_map(obj);
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# define item_(v) mpkutil_get_map_item_by_str(root, v)
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# define unpack_(name, var) do { \
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if (!LOCOMMON_MSGPACK_UNPACK_ANY(item_(name), &p->var)) { \
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return false; \
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} \
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} while (0)
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LOBULLET_LINEAR_PARAM_TO_PACK_EACH_(unpack_);
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return lobullet_linear_param_valid(p);
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# undef unpack_
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# undef item_
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}
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void lobullet_linear_build(
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lobullet_base_t* base,
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lobullet_type_t type,
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const lobullet_linear_param_t* param) {
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assert(base != NULL);
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assert(lobullet_linear_param_valid(param));
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base->type = type;
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lobullet_linear_param_t* p = (typeof(p)) base->data;
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*p = *param;
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p->since = base->ticker->time;
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}
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bool lobullet_linear_light_update(lobullet_base_t* base) {
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assert(base != NULL);
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static const uint64_t fadedur = 500;
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if (!lobullet_linear_update_(base)) return false;
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const lobullet_linear_param_t* p = (typeof(p)) base->data;
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/* ---- calculation ---- */
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vec2_t size = p->size;
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vec2_muleq(&size, 1.2f);
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float alpha = 1;
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const uint64_t remain = p->duration - (base->ticker->time - p->since);
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if (remain <= fadedur) alpha = remain*1.f / fadedur;
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/* ---- apply result ---- */
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base->super.shape.type = COLY2D_SHAPE_TYPE_ELLIPSE;
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base->cache.instance = (loshader_bullet_drawer_instance_t) {
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.bullet_id = LOSHADER_BULLET_ID_LIGHT,
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.size = size,
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.theta = base->super.shape.angle,
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.color = p->color,
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};
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base->cache.instance.color.w = alpha;
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return true;
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}
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bool lobullet_linear_triangle_update(lobullet_base_t* base) {
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assert(base != NULL);
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if (!lobullet_linear_update_(base)) return false;
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const lobullet_linear_param_t* p = (typeof(p)) base->data;
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/* ---- calculation ---- */
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vec2_t size = p->size;
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size.x *= 1-(1-cos(MATH_PI/3))/2;
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size.y *= 1-(1-sin(MATH_PI/3))/2;
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/* ---- apply result ---- */
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base->super.shape.type = COLY2D_SHAPE_TYPE_TRIANGLE;
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base->cache.instance = (loshader_bullet_drawer_instance_t) {
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.bullet_id = LOSHADER_BULLET_ID_TRIANGLE,
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.size = size,
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.theta = base->super.shape.angle,
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.color = p->color,
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.time = 1,
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};
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return true;
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}
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