134 lines
4.2 KiB
C
134 lines
4.2 KiB
C
#include "zpl.h"
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#include <math.h>
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#include <stdlib.h>
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#include "world/world.h"
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#include "world/blocks.h"
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#include "world/perlin.h"
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#define WORLD_BLOCK_OBSERVER(name) uint32_t name(uint32_t id, uint32_t block_idx)
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typedef WORLD_BLOCK_OBSERVER(world_block_observer_proc);
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#define WORLD_PERLIN_FREQ 1.0
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#define WORLD_PERLIN_OCTAVES 1
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static void world_fill_rect(uint32_t id, uint32_t x, uint32_t y, uint32_t w, uint32_t h, world_block_observer_proc *proc) {
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for (uint32_t cy=y; cy<y+h; cy++) {
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for (uint32_t cx=x; cx<x+w; cx++) {
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if (cx < 0 || cx >= world.width) continue;
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if (cy < 0 || cy >= world.height) continue;
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uint32_t i = (cy*world.width) + cx;
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if (proc) {
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uint32_t new_id = (*proc)(id, i);
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if (new_id != BLOCK_INVALID) {
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id = new_id;
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}
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else continue;
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}
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world.data[i] = id;
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}
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}
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}
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static void world_fill_circle(uint32_t id, uint32_t x, uint32_t y, uint32_t w, uint32_t h, world_block_observer_proc *proc) {
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for (uint32_t cy=y; cy<y+h; cy++) {
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for (uint32_t cx=x; cx<x+w; cx++) {
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if (cx < 0 || cx >= world.width) continue;
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if (cy < 0 || cy >= world.height) continue;
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uint32_t i = (cy*world.width) + cx;
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if (proc) {
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uint32_t new_id = (*proc)(id, i);
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if (new_id != BLOCK_INVALID) {
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id = new_id;
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}
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else continue;
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}
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world.data[i] = id;
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}
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}
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}
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static void world_fill_rect_anchor(uint32_t id, uint32_t x, uint32_t y, uint32_t w, uint32_t h, float ax, float ay, world_block_observer_proc *proc) {
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uint32_t w2 = (uint32_t)floorf(w*ax);
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uint32_t h2 = (uint32_t)floorf(h*ay);
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world_fill_rect(id, x-w2, y-h2, w, h, proc);
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}
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static WORLD_BLOCK_OBSERVER(shaper) {
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uint32_t biome = blocks_get_biome(id);
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uint32_t kind = blocks_get_kind(id);
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uint32_t old_biome = blocks_get_biome(world.data[block_idx]);
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uint32_t old_kind = blocks_get_kind(world.data[block_idx]);
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if (biome == old_biome) {
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if (kind == BLOCK_KIND_WALL && kind == old_kind) {
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return blocks_find(biome, BLOCK_KIND_HILL);
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}
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if (kind == BLOCK_KIND_HILL && kind == old_kind) {
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return blocks_find(biome, BLOCK_KIND_HILL_SNOW);
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}
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}
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return id;
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}
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static uint8_t world_perlin_cond(uint32_t block_idx, double chance) {
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uint32_t x = block_idx % world.width;
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uint32_t y = block_idx / world.width;
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return perlin_fbm(world.seed, x, y, WORLD_PERLIN_FREQ, WORLD_PERLIN_OCTAVES) < chance;
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}
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static WORLD_BLOCK_OBSERVER(shaper_noise80) {
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return world_perlin_cond(block_idx, 0.80) ? shaper(id, block_idx) : BLOCK_INVALID;
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}
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static WORLD_BLOCK_OBSERVER(shaper_noise50) {
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return world_perlin_cond(block_idx, 0.50) ? shaper(id, block_idx) : BLOCK_INVALID;
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}
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static WORLD_BLOCK_OBSERVER(shaper_noise33) {
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return world_perlin_cond(block_idx, 0.33) ? shaper(id, block_idx) : BLOCK_INVALID;
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}
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static void world_fill_mountain(uint32_t x, uint32_t y) {
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}
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#define RAND_RANGE(x,y) (x + (uint32_t)rand()%(y-(x)))
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int32_t world_gen() {
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// TODO: perform world gen
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// atm, we will fill the world with ground and surround it by walls
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uint32_t wall_id = blocks_find(BLOCK_BIOME_DEV, BLOCK_KIND_WALL);
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uint32_t grnd_id = blocks_find(BLOCK_BIOME_DEV, BLOCK_KIND_GROUND);
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uint32_t watr_id = blocks_find(BLOCK_BIOME_DEV, BLOCK_KIND_WATER);
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srand(world.seed);
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// walls
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world_fill_rect(wall_id, 0, 0, world.width, world.height, NULL);
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// ground
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world_fill_rect(grnd_id, 1, 1, world.width-2, world.height-2, NULL);
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// water
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for (int i=0; i<RAND_RANGE(0, 12); i++) {
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world_fill_rect_anchor(watr_id, RAND_RANGE(0, world.width), RAND_RANGE(0, world.height), 4+RAND_RANGE(0,3), 4+RAND_RANGE(0,3), 0.5f, 0.5f, shaper_noise33);
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}
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const uint32_t HILLS_SIZE = 21;
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// hills
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for (int i=0; i<RAND_RANGE(8, 224); i++) {
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world_fill_rect_anchor(wall_id, RAND_RANGE(0, world.width), RAND_RANGE(0, world.height), RAND_RANGE(0,HILLS_SIZE), RAND_RANGE(0,HILLS_SIZE), 0.5f, 0.5f, shaper_noise33);
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}
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return WORLD_ERROR_NONE;
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}
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