#include "rskos.h" #ifndef RS_KOS #include "rs/rstexture.h" #include "rs/rsgl.h" #include "rs/rsshader.h" #include "rs/rsaudio.h" #include #include //unsigned char* rskos_malloc(unsigned int bytes_count) { // return malloc(bytes_count); //}; // //void rskos_free(unsigned char* pointer) { // free(pointer); //}; // //void rskos_memset(unsigned char* pointer, unsigned char value, unsigned int bytes_count) { // memset(pointer, value, bytes_count); //}; // //void rskos_memcpy(unsigned char* dest, unsigned char* src, unsigned int bytes_count) { // memcpy(dest, src, bytes_count); //}; unsigned int rskos_get_time() { return rs_app.app_time; }; void rskos_draw_area(int x, int y, int w, int h, int k_scale, unsigned char *data, unsigned char *scaled_buffer, int image_format) { int bpp = image_format == RSKOS_BGR ? 3 : 4; // int i, j; // // for (i = 0; i < h*k_scale; i++) { // for (j = 0; j < w*k_scale; j++) { // scaled_buffer[ (i*w*k_scale + j)*3 + 0] = data[ ( (i/k_scale)*w + (j/k_scale) )*4 + 0]; // scaled_buffer[ (i*w*k_scale + j)*3 + 1] = data[ ( (i/k_scale)*w + (j/k_scale) )*4 + 1]; // scaled_buffer[ (i*w*k_scale + j)*3 + 2] = data[ ( (i/k_scale)*w + (j/k_scale) )*4 + 2]; // }; // }; glViewport(0, 0, rs_app.width, rs_app.height); glClearColor( 0.2596078431, 0.2815686275, 0.3929411765, 1.0 ); // #98d0ed //glClearColor( 0.0, 0.4, 0.1 + 0.5*0.001*(rs_get_time()%1024) , 1.0 ); glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT); // <-- FBO //rs_tx_t tex = rs_tx_create_from_data(w*k_scale, h*k_scale, 3, 0, 1, scaled_buffer); rs_tx_t tex = rs_tx_create_from_data(w, h, bpp, 0, 1, data); glBindTexture(GL_TEXTURE_2D, tex); rs_sh_use(DefaultShader); rs_mx_identity_modelview(); rs_mx_ortho_proj(); glUniformMatrix4fv( DefaultShader[RS_SH_PROJ_ID], 1, GL_FALSE, rs_reg.mx_proj ); glUniformMatrix4fv( DefaultShader[RS_SH_MODELVIEW_ID], 1, GL_FALSE, rs_reg.mx_modelview ); glrsDrawRect(x, y, x+w*k_scale, y+h*k_scale, DefaultShader[RS_SH_POS_ID], DefaultShader[RS_SH_UV_ID]); rs_tx_destroy(&tex); rsDoSwapBuffers(); }; void rskos_resize_window(int w, int h) { // }; void rskos_get_screen_size(unsigned int *pw, unsigned int *ph) { *pw = rs_app.width + 50; *ph = rs_app.height + 50; }; void rskos_exit() { rsAppExit(); }; //void rskos_snd_init() { // // // // rs_audio // //}; void rskos_snd_create_buffer(SNDBUF *hbuf, signed short *buffer, unsigned int length) { // rs_sound_t *snd = malloc( sizeof(rs_sound_t) ); rs_sound_create_from_data(snd, length*2, (unsigned char*) buffer); *hbuf = snd; }; void rskos_snd_update_buffer(SNDBUF *hbuf, signed short *buffer, unsigned int length) { rs_sound_destroy(*hbuf); rskos_snd_create_buffer(hbuf, buffer, length); }; void rskos_snd_play(SNDBUF *hbuf, unsigned int mode) { rs_sound_play(*hbuf); }; void rskos_snd_stop(SNDBUF *hbuf) { rs_sound_stop(*hbuf); }; #else #include "rs/rsplatform.h" unsigned int rskos_get_time() { return 1; }; void rskos_draw_area(int x, int y, int w, int h, int k_scale, unsigned char *data, unsigned char *scaled_buffer, int image_format) { // unsigned char *scaled_buffer = malloc(w*k_scale*h*k_scale*3); // if (scaled_buffer != NULL) { int i, j; for (i = 0; i < h*k_scale; i++) { for (j = 0; j < w*k_scale; j++) { scaled_buffer[ (i*w*k_scale + j)*3 + 0] = data[ ( (i/k_scale)*w + (j/k_scale) )*4 + 0]; scaled_buffer[ (i*w*k_scale + j)*3 + 1] = data[ ( (i/k_scale)*w + (j/k_scale) )*4 + 1]; scaled_buffer[ (i*w*k_scale + j)*3 + 2] = data[ ( (i/k_scale)*w + (j/k_scale) )*4 + 2]; }; }; kol_paint_image(0, 0, w*k_scale, h*k_scale, scaled_buffer); // } // else { // //kol_paint_image_pal(0, 0, w, h, data, &image_format) // h/=4; // asm volatile ("int $0x40"::"a"(65), "b"(data), "c"(w*65536+h), "d"(0*65536+0), "D"(0), "S"(24) ); //// asm volatile ("int $0x40"::"a"(7), "c"(w*65536+h), "d"(x*65536+y), "b"(data)); // }; // //// free(image_data); }; void rskos_resize_window(int w, int h) { // !!!!!!!!! add define-fix here w = -1 + w + 10; // 2 x 5px border h = -1 + kol_skin_height() + h + 5; // bottom 5px border asm volatile ("int $0x40"::"a"(67), "b"(-1), "c"(-1), "d"(w), "S"(h)); }; void rskos_get_screen_size(unsigned int *pw, unsigned int *ph) { kol_screen_get_size(pw, ph); }; void rskos_exit() { kol_exit(); }; #define fmt PCM_1_16_16 // 1 channel, 16 bit per sample, 16 kHz void rskos_snd_create_buffer(SNDBUF *phbuf, signed short *buffer, unsigned int length_samples) { unsigned int snd_format = fmt; CreateBuffer(snd_format|PCM_STATIC, length_samples*2, phbuf); int offset = 0; SetBuffer(*phbuf, (void*)buffer, offset, length_samples*2); }; void rskos_snd_update_buffer(SNDBUF *phbuf, signed short *buffer, unsigned int length_samples) { unsigned int snd_format = fmt; // CreateBuffer(snd_format|PCM_STATIC, length, phbuf); int offset = 0; SetBuffer(*phbuf, (void*)buffer, offset, length_samples*2); }; void rskos_snd_play(SNDBUF *phbuf, unsigned int mode) { SetBufferPos(*phbuf, 0); PlayBuffer(*phbuf, 0); }; void rskos_snd_stop(SNDBUF *phbuf) { StopBuffer(*phbuf); }; #endif