ref: df6f9d5aa5b32a24cd24d985e15c19b1dc38002f
dir: /sim.c/
#include "gbuffer.h" #include "mark.h" #include "sim.h" //////// Utilities static Glyph const indexed_glyphs[] = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '.', '*', ':', ';', '#', }; enum { Glyphs_array_num = sizeof indexed_glyphs }; static inline Glyph glyph_lowered(Glyph c) { return (c >= 'A' && c <= 'Z') ? (char)(c - ('a' - 'A')) : c; } // Always returns 0 through (sizeof indexed_glyphs) - 1, and works on // capitalized glyphs as well. The index of the lower-cased glyph is returned // if the glyph is capitalized. static inline Usz semantic_index_of_glyph(Glyph c) { Glyph c0 = glyph_lowered(c); if (c0 == '.') return 0; for (Usz i = 0; i < Glyphs_array_num; ++i) { if (indexed_glyphs[i] == c0) return i; } return 0; } static inline Glyph glyphs_sum(Glyph a, Glyph b) { Usz ia = semantic_index_of_glyph(a); Usz ib = semantic_index_of_glyph(b); return indexed_glyphs[(ia + ib) % Glyphs_array_num]; } static inline Glyph glyphs_mod(Glyph a, Glyph b) { Usz ia = semantic_index_of_glyph(a); Usz ib = semantic_index_of_glyph(b); return indexed_glyphs[ib == 0 ? 0 : (ia % ib)]; } static inline bool oper_has_neighboring_bang(Gbuffer gbuf, Usz h, Usz w, Usz y, Usz x) { return gbuffer_peek_relative(gbuf, h, w, y, x, 0, 1) == '*' || gbuffer_peek_relative(gbuf, h, w, y, x, 0, -1) == '*' || gbuffer_peek_relative(gbuf, h, w, y, x, 1, 0) == '*' || gbuffer_peek_relative(gbuf, h, w, y, x, -1, 0) == '*'; } static inline void oper_move_relative_or_explode(Gbuffer gbuf, Mbuffer mbuf, Usz height, Usz width, Glyph moved, Usz y, Usz x, Isz delta_y, Isz delta_x) { Isz y0 = (Isz)y + delta_y; Isz x0 = (Isz)x + delta_x; if (y0 >= (Isz)height || x0 >= (Isz)width || y0 < 0 || x0 < 0) { gbuf[y * width + x] = '*'; return; } Glyph* at_dest = gbuf + (Usz)y0 * width + (Usz)x0; if (*at_dest != '.') { gbuf[y * width + x] = '*'; mbuffer_poke_flags_or(mbuf, height, width, y, x, Mark_flag_sleep); return; } *at_dest = moved; mbuffer_poke_flags_or(mbuf, height, width, (Usz)y0, (Usz)x0, Mark_flag_sleep); gbuf[y * width + x] = '.'; } #define ORCA_EXPAND_SOLO_OPER_CHARS(_oper_name, _oper_char) \ Orca_oper_char_##_oper_name = _oper_char, #define ORCA_EXPAND_DUAL_OPER_CHARS(_oper_name, _upper_oper_char, \ _lower_oper_char) \ Orca_oper_upper_char_##_oper_name = _upper_oper_char, \ Orca_oper_lower_char_##_oper_name = _lower_oper_char, #define ORCA_DEFINE_OPER_CHARS(_solo_defs, _dual_defs) \ enum Orca_oper_chars { \ _solo_defs(ORCA_EXPAND_SOLO_OPER_CHARS) \ _dual_defs(ORCA_EXPAND_DUAL_OPER_CHARS) \ }; #define ORCA_DECLARE_OPERATORS(_solo_defs, _dual_defs) \ ORCA_DEFINE_OPER_CHARS(_solo_defs, _dual_defs) #define OPER_IGNORE_COMMON_ARGS() \ (void)gbuffer; \ (void)mbuffer; \ (void)height; \ (void)width; \ (void)y; \ (void)x; #define BEGIN_SOLO_PHASE_0(_oper_name) \ static inline void oper_phase0_##_oper_name( \ Gbuffer const gbuffer, Mbuffer const mbuffer, Usz const height, \ Usz const width, Usz const y, Usz const x, U8 const cell_flags) { \ OPER_IGNORE_COMMON_ARGS() \ (void)cell_flags; \ enum { This_oper_char = Orca_oper_char_##_oper_name }; #define BEGIN_SOLO_PHASE_1(_oper_name) \ static inline void oper_phase1_##_oper_name( \ Gbuffer const gbuffer, Mbuffer const mbuffer, Usz const height, \ Usz const width, Usz const y, Usz const x) { \ OPER_IGNORE_COMMON_ARGS() \ enum { This_oper_char = Orca_oper_char_##_oper_name }; #define BEGIN_DUAL_PHASE_0(_oper_name) \ static inline void oper_phase0_##_oper_name( \ Gbuffer const gbuffer, Mbuffer const mbuffer, Usz const height, \ Usz const width, Usz const y, Usz const x, U8 const cell_flags, \ Glyph const This_oper_char) { \ OPER_IGNORE_COMMON_ARGS() \ (void)cell_flags; \ bool const Dual_is_uppercase = \ Orca_oper_upper_char_##_oper_name == This_oper_char; \ (void)Dual_is_uppercase; #define BEGIN_DUAL_PHASE_1(_oper_name) \ static inline void oper_phase1_##_oper_name( \ Gbuffer const gbuffer, Mbuffer const mbuffer, Usz const height, \ Usz const width, Usz const y, Usz const x, Glyph const This_oper_char) { \ OPER_IGNORE_COMMON_ARGS() \ bool const Dual_is_uppercase = \ Orca_oper_upper_char_##_oper_name == This_oper_char; \ (void)Dual_is_uppercase; #define END_PHASE } #define OPER_POKE_ABSOLUTE(_y, _x, _glyph) \ gbuffer_poke(gbuffer, height, width, _y, _x, _glyph) #define OPER_PEEK(_delta_y, _delta_x) \ gbuffer_peek_relative(gbuffer, height, width, y, x, _delta_y, _delta_x) #define OPER_POKE(_delta_y, _delta_x, _glyph) \ gbuffer_poke_relative(gbuffer, height, width, y, x, _delta_y, _delta_x, \ _glyph) #define OPER_POKE_SELF(_glyph) OPER_POKE_ABSOLUTE(y, x, _glyph) #define OPER_REQUIRE_BANG() \ if (!oper_has_neighboring_bang(gbuffer, height, width, y, x)) \ return #define PORT_LOCKED Mark_flag_lock #define PORT_UNLOCKED Mark_flag_none #define PORT_HASTE Mark_flag_haste_input #define REALIZE_DUAL \ bool const Dual_is_active = \ Dual_is_uppercase | \ oper_has_neighboring_bang(gbuffer, height, width, y, x); #define BEGIN_DUAL_PORTS \ { \ bool const Oper_ports_enabled = Dual_is_active; #define OPER_DUAL_REQUIRE_TRIGGER() \ if (!Dual_is_active) \ return #define INPUT_PORT(_delta_y, _delta_x, _flags) \ mbuffer_poke_relative_flags_or( \ mbuffer, height, width, y, x, _delta_y, _delta_x, \ Mark_flag_input | ((_flags)&Mark_flag_haste_input) | \ (Oper_ports_enabled && \ (cell_flags & (Mark_flag_lock | Mark_flag_sleep)) \ ? Mark_flag_none \ : (_flags))) #define OUTPUT_PORT(_delta_y, _delta_x, _flags) \ mbuffer_poke_relative_flags_or( \ mbuffer, height, width, y, x, _delta_y, _delta_x, \ Mark_flag_input | ((_flags)&Mark_flag_haste_input) | \ (Oper_ports_enabled && \ (cell_flags & (Mark_flag_lock | Mark_flag_sleep)) \ ? Mark_flag_none \ : (_flags))) #define END_PORTS } #define BEGIN_HASTE if (!(cell_flags & (Mark_flag_lock | Mark_flag_sleep))) { #define END_HASTE } #define OPER_MOVE_OR_EXPLODE(_delta_y, _delta_x) \ oper_move_relative_or_explode(gbuffer, mbuffer, height, width, \ This_oper_char, y, x, _delta_y, _delta_x) #define OPER_DEFINE_DIRECTIONAL(_oper_name, _delta_y, _delta_x) \ BEGIN_DUAL_PHASE_0(_oper_name) \ BEGIN_HASTE \ REALIZE_DUAL; \ OPER_DUAL_REQUIRE_TRIGGER(); \ OPER_MOVE_OR_EXPLODE(_delta_y, _delta_x); \ END_HASTE \ END_PHASE \ BEGIN_DUAL_PHASE_1(_oper_name) \ END_PHASE //////// Operators #define ORCA_SOLO_OPERATORS(_) _(bang, '*') #define ORCA_DUAL_OPERATORS(_) \ _(north, 'N', 'n') \ _(east, 'E', 'e') \ _(south, 'S', 's') \ _(west, 'W', 'w') \ _(add, 'A', 'a') \ _(modulo, 'M', 'm') \ _(increment, 'I', 'i') ORCA_DECLARE_OPERATORS(ORCA_SOLO_OPERATORS, ORCA_DUAL_OPERATORS) //////// Behavior OPER_DEFINE_DIRECTIONAL(north, -1, 0) OPER_DEFINE_DIRECTIONAL(east, 0, 1) OPER_DEFINE_DIRECTIONAL(south, 1, 0) OPER_DEFINE_DIRECTIONAL(west, 0, -1) BEGIN_DUAL_PHASE_0(add) REALIZE_DUAL; BEGIN_DUAL_PORTS INPUT_PORT(0, 1, PORT_LOCKED); INPUT_PORT(0, 2, PORT_LOCKED); OUTPUT_PORT(1, 0, PORT_LOCKED); END_PORTS END_PHASE BEGIN_DUAL_PHASE_1(add) REALIZE_DUAL; OPER_DUAL_REQUIRE_TRIGGER(); Glyph inp0 = OPER_PEEK(0, 1); Glyph inp1 = OPER_PEEK(0, 2); Glyph g = glyphs_sum(inp0, inp1); OPER_POKE(1, 0, g); END_PHASE BEGIN_DUAL_PHASE_0(modulo) REALIZE_DUAL; BEGIN_DUAL_PORTS INPUT_PORT(0, 1, PORT_LOCKED); INPUT_PORT(0, 2, PORT_LOCKED); OUTPUT_PORT(1, 0, PORT_LOCKED); END_PORTS END_PHASE BEGIN_DUAL_PHASE_1(modulo) REALIZE_DUAL; OPER_DUAL_REQUIRE_TRIGGER(); Glyph inp0 = OPER_PEEK(0, 1); Glyph inp1 = OPER_PEEK(0, 2); Glyph g = glyphs_mod(inp0, inp1); OPER_POKE(1, 0, g); END_PHASE BEGIN_DUAL_PHASE_0(increment) REALIZE_DUAL; BEGIN_DUAL_PORTS INPUT_PORT(0, 1, PORT_LOCKED); INPUT_PORT(0, 2, PORT_LOCKED); OUTPUT_PORT(1, 0, PORT_LOCKED); END_PORTS END_PHASE BEGIN_DUAL_PHASE_1(increment) END_PHASE BEGIN_SOLO_PHASE_0(bang) BEGIN_HASTE OPER_POKE_SELF('.'); END_HASTE END_PHASE BEGIN_SOLO_PHASE_1(bang) END_PHASE //////// Run simulation #define SIM_EXPAND_SOLO_PHASE_0(_oper_name, _oper_char) \ case _oper_char: \ oper_phase0_##_oper_name(gbuf, mbuf, height, width, iy, ix, cell_flags); \ break; #define SIM_EXPAND_SOLO_PHASE_1(_oper_name, _oper_char) \ case _oper_char: \ oper_phase1_##_oper_name(gbuf, mbuf, height, width, iy, ix); \ break; #define SIM_EXPAND_DUAL_PHASE_0(_oper_name, _upper_oper_char, \ _lower_oper_char) \ case _upper_oper_char: \ case _lower_oper_char: \ oper_phase0_##_oper_name(gbuf, mbuf, height, width, iy, ix, cell_flags, \ glyph_char); \ break; #define SIM_EXPAND_DUAL_PHASE_1(_oper_name, _upper_oper_char, \ _lower_oper_char) \ case _upper_oper_char: \ case _lower_oper_char: \ oper_phase1_##_oper_name(gbuf, mbuf, height, width, iy, ix, glyph_char); \ break; static void sim_phase_0(Gbuffer gbuf, Mbuffer mbuf, Usz height, Usz width) { for (Usz iy = 0; iy < height; ++iy) { Glyph* glyph_row = gbuf + iy * width; for (Usz ix = 0; ix < width; ++ix) { Glyph glyph_char = glyph_row[ix]; if (glyph_char == '.') continue; U8 cell_flags = mbuffer_peek(mbuf, height, width, iy, ix) & (Mark_flag_lock | Mark_flag_sleep); switch (glyph_char) { ORCA_SOLO_OPERATORS(SIM_EXPAND_SOLO_PHASE_0) ORCA_DUAL_OPERATORS(SIM_EXPAND_DUAL_PHASE_0) } } } } static void sim_phase_1(Gbuffer gbuf, Mbuffer mbuf, Usz height, Usz width) { for (Usz iy = 0; iy < height; ++iy) { Glyph* glyph_row = gbuf + iy * width; for (Usz ix = 0; ix < width; ++ix) { Glyph glyph_char = glyph_row[ix]; if (glyph_char == '.') continue; if (mbuffer_peek(mbuf, height, width, iy, ix) & (Mark_flag_lock | Mark_flag_sleep)) continue; switch (glyph_char) { ORCA_SOLO_OPERATORS(SIM_EXPAND_SOLO_PHASE_1) ORCA_DUAL_OPERATORS(SIM_EXPAND_DUAL_PHASE_1) } } } } void orca_run(Gbuffer gbuf, Mbuffer mbuf, Usz height, Usz width) { mbuffer_clear(mbuf, height, width); sim_phase_0(gbuf, mbuf, height, width); sim_phase_1(gbuf, mbuf, height, width); }