#include #include #include #include #include #include #include "ugui.h" #define SALT 0xbabb0cac #define DEF_SCALE 1.0 #define DEF_PPI 96.0 #define STACK_STEP 64 #define RESIZEALL ( \ UG_CNT_RESIZE_RIGHT | \ UG_CNT_RESIZE_BOTTOM | \ UG_CNT_RESIZE_LEFT | \ UG_CNT_RESIZE_TOP \ ) #define BTN_ANY ( \ UG_BTN_LEFT | \ UG_BTN_RIGHT | \ UG_BTN_MIDDLE | \ UG_BTN_4 | \ UG_BTN_5 \ ) #define CNT_STATE_ALL ( \ CNT_STATE_MOVING | \ CNT_STATE_RESIZE_T | \ CNT_STATE_RESIZE_B | \ CNT_STATE_RESIZE_L | \ CNT_STATE_RESIZE_R \ ) #define PPI_PPM(ppi, scale) (ppi * scale * 0.03937008) #define PPI_PPD(ppi, scale) (PPI_PPM(ppi, scale) * 0.3528) #define IS_VALID_UNIT(u) (u==UG_UNIT_PX||u==UG_UNIT_MM||u==UG_UNIT_PT) #define UG_ERR(...) err(errno, "__FUNCTION__: " __VA_ARGS__) #define BETWEEN(x, min, max) (x <= max && x >= min) #define INTERSECTS(v, r) (BETWEEN(v.x, r.x, r.x+r.w) && BETWEEN(v.y, r.y, r.y+r.h)) #define TEST(f, b) (f & b) #define MAX(a, b) (a > b ? a : b) // default style // TODO: fill default style static const ug_style_t default_style = { .text = { .color = RGB_FORMAT(0xffffff), .alt_color = RGB_FORMAT(0xbbbbbb), .size = SIZE_PX(16), .alt_size = SIZE_PX(12), }, .cnt = { .bg_color = RGB_FORMAT(0x0000ff), .border.t = SIZE_PX(3), .border.b = SIZE_PX(3), .border.l = SIZE_PX(10), .border.r = SIZE_PX(3), .border.color = RGB_FORMAT(0x00ff00), .titlebar.height = SIZE_PX(20), .titlebar.bg_color = RGB_FORMAT(0xbababa), }, }; static const ug_vec2_t max_size = {{10e6}, {10e6}}; static ug_style_t style_cache = {0}; /*=============================================================================* * Common Functions * *=============================================================================*/ // grow a stack #define GROW_STACK(S) \ { \ S.items = realloc(S.items, (S.size+STACK_STEP)*sizeof(*(S.items))); \ if(!S.items) \ UG_ERR("Could not allocate stack #S: %s", strerror(errno)); \ memset(&(S.items[S.size]), 0, STACK_STEP*sizeof(*(S.items))); \ S.size += STACK_STEP; \ } #define GET_FROM_STACK(S, c) \ { \ if (S.idx >= S.size) \ GROW_STACK(S); \ c = &(S.items[S.idx++]); \ } #define RESET_STACK(S) \ { \ memset(S.items, 0, S.idx*sizeof(*(S.items))); \ S.idx = 0; \ } #define MOUSEDOWN(ctx, btn) (~(ctx->mouse.hold & btn) & (ctx->mouse.update & btn)) #define MOUSEUP(ctx, btn) ((ctx->mouse.hold & btn) & (ctx->mouse.update & btn)) #define HELD(ctx, btn) (ctx->mouse.hold & btn) // https://en.wikipedia.org/wiki/Jenkins_hash_function static ug_id_t hash(const void *data, unsigned int size) { if (!size) return 0; ug_id_t hash = SALT; unsigned char *v = (unsigned char *)data; for (; size; size--) { hash += v[size-1]; hash += hash << 10; hash ^= hash >> 6; } hash += hash << 3; hash ^= hash >> 11; hash += hash << 15; return hash; } int size_to_px(ug_ctx_t *ctx, ug_size_t s) { switch (s.unit) { case UG_UNIT_MM: return roundf(s.size.f * ctx->ppm); case UG_UNIT_PT: return roundf(s.size.f * ctx->ppd); case UG_UNIT_PX: return s.size.i; default: return 0; } } ug_rect_t div_to_rect(ug_ctx_t *ctx, ug_div_t *div) { ug_rect_t r; r.x = size_to_px(ctx, div->x); r.y = size_to_px(ctx, div->y); r.w = size_to_px(ctx, div->w); r.h = size_to_px(ctx, div->h); return r; } // update the style cache with the correct sizes in pixels and colors static void update_style_cache(ug_ctx_t *ctx) { const ug_style_t *s = ctx->style; // FIME: use the correct units and convert, for now assume default style style_cache = *s; } void push_rect_command(ug_ctx_t *ctx, const ug_rect_t *rect, ug_color_t color) { ug_cmd_t *c; GET_FROM_STACK(ctx->cmd_stack, c); c->type = UG_CMD_RECT; c->rect.x = rect->x; c->rect.y = rect->y; c->rect.w = rect->w; c->rect.h = rect->h; c->rect.color = color; } /*=============================================================================* * Context Operations * *=============================================================================*/ // creates a new context, fills with default values, ctx is ready for ug_start() ug_ctx_t *ug_ctx_new(void) { ug_ctx_t *ctx = malloc(sizeof(ug_ctx_t)); if (!ctx) err(errno, "__FUNCTION__:" "Could not allocate context: %s", strerror(errno)); memset(ctx, 0, sizeof(ug_ctx_t)); ctx->style = &default_style; ctx->style_px = &style_cache; ug_ctx_set_displayinfo(ctx, DEF_SCALE, DEF_PPI); // TODO: allocate stacks return ctx; } void ug_ctx_free(ug_ctx_t *ctx) { if (!ctx) { warn("__FUNCTION__:" "Trying to free a null context"); return; } free(ctx->cmd_stack.items); free(ctx->cnt_stack.items); free(ctx); // NOTE: do not free style since the default is statically allocated, let // the user take care of it instead } #define TEST_CTX(ctx) { if (!ctx) return -1; } int ug_ctx_set_displayinfo(ug_ctx_t *ctx, float scale, float ppi) { TEST_CTX(ctx); if (scale <= 0 || ppi < 20.0) return -1; ctx->last_ppi = ctx->ppi; ctx->last_ppm = ctx->ppd; ctx->last_ppd = ctx->ppm; ctx->ppm = PPI_PPM(scale, ppi); ctx->ppd = PPI_PPM(scale, ppi); ctx->ppi = ppi; update_style_cache(ctx); return 0; } int ug_ctx_set_drawableregion(ug_ctx_t *ctx, ug_vec2_t size) { TEST_CTX(ctx); if (size.w <= 0 || size.h <= 0) return -1; ctx->size.w = size.w; ctx->size.h = size.h; // FIXME: do I need to do something like update_container_size() here? // maybe it is redundant since each frame not every conatiner is // re-added return 0; } int ug_ctx_set_style(ug_ctx_t *ctx, const ug_style_t *style) { TEST_CTX(ctx); if (!style) return -1; // TODO: validate style ctx->style = style; update_style_cache(ctx); return 0; } /*=============================================================================* * Container Operations * *=============================================================================*/ // get a new or existing container handle static ug_container_t *get_container(ug_ctx_t *ctx, ug_id_t id) { ug_container_t *c = NULL; for (int i = 0; i < ctx->cnt_stack.idx; i++) { if (ctx->cnt_stack.items[i].id == id) { c = &(ctx->cnt_stack.items[i]); break; } } // if the container was not already there allocate a new one if (!c) GET_FROM_STACK(ctx->cnt_stack, c); return c; } // update the container dimensions and position according to the context information, // also handle resizing, moving, ect. if allowed by the container static void position_container(ug_ctx_t *ctx, ug_container_t *cnt) { ug_rect_t *rect, *rca; rect = &cnt->rect; rca = &cnt->rca; if (ctx->ppi != ctx->last_ppi) { // if the scale has been updated than we need to scale the container // as well float scale = ctx->ppi / ctx->last_ppi; rect->x = roundf(rect->x * scale); rect->y = roundf(rect->y * scale); rect->w = roundf(rect->w * scale); rect->h = roundf(rect->h * scale); } *rca = *rect; /* * Container style: * * rca * v * +-----------------------------------------------+ * | Titlebar | * +-----------------------------------------------+ * |+---------------------------------------------+| * ||\ ^ Border Top ^ || * || \_ rect(0,0) || * || || * || || * || || * || || * || || * || || * || || * || < Border Left || * || Border Right > || * || || * || || * || || * || || * |+---------------------------------------------+| * +-----------------------------------------------+ * ^ Border Bottom ^ */ const ug_style_t *s = ctx->style_px; int bl = s->cnt.border.l.size.i; int br = s->cnt.border.r.size.i; int bt = s->cnt.border.t.size.i; int bb = s->cnt.border.b.size.i; int hh = s->cnt.titlebar.height.size.i; int cx = ctx->origin.x; int cy = ctx->origin.y; int cw = ctx->origin.w; int ch = ctx->origin.h; // handle relative sizes if (rect->w == 0) rca->w = cw; else rca->w += bl + br; if (rect->h == 0) rca->h = ch; else if (TEST(cnt->flags, UG_CNT_MOVABLE)) rca->h += hh + 2*bt + bb; else rca->h += bt + bb; // if the container is not fixed than it can have positions outside of the // main window, thus negative if (!TEST(cnt->flags, UG_CNT_MOVABLE)) { printf("origin: x=%d y=%d w=%d h=%d\t", ctx->origin.x, ctx->origin.y, ctx->origin.w, ctx->origin.h); // <0 -> relative to the right margin if (rect->x < 0) rca->x = cx + cw - rca->w + rca->x + 1; else rca->x = cx; if (rect->y < 0) rca->y = cy + ch - rca->h + rca->y + 1; else rca->y = cy; // if the container is fixed than update the available space in // the context if (rect->y >= 0) { if (rect->x < 0) { ctx->origin.w = rca->x; } else { ctx->origin.x = rca->x + rca->w; ctx->origin.w -= rca->w; } } if (rect->x >= 0) { if (rect->y < 0) { ctx->origin.h = rca->y; } else { ctx->origin.y = rca->y + rca->h; ctx->origin.y -= rca->h; } } printf("new origin: x=%d y=%d w=%d h=%d\n", ctx->origin.x, ctx->origin.y, ctx->origin.w, ctx->origin.h); } } void handle_container(ug_ctx_t *ctx, ug_container_t *cnt) { // if we are not the currently active container than definately we are not // being moved or resized if (ctx->active.cnt != cnt->id) { cnt->flags &= ~CNT_STATE_ALL; return; } // mouse pressed handle resize, for simplicity containers can only // be resized from the bottom and right border // TODO: bring selected container to the top of the stack if (!HELD(ctx, UG_BTN_LEFT) || !TEST(cnt->flags, (RESIZEALL | UG_CNT_MOVABLE))) return; ug_rect_t *rect, *rca; rect = &cnt->rect; rca = &cnt->rca; const ug_style_t *s = ctx->style_px; int bl = s->cnt.border.l.size.i; int br = s->cnt.border.r.size.i; int bt = s->cnt.border.t.size.i; int bb = s->cnt.border.b.size.i; int hh = s->cnt.titlebar.height.size.i; ug_vec2_t mpos = ctx->mouse.pos; int minx, maxx, miny, maxy; // handle movable windows if (TEST(cnt->flags, UG_CNT_MOVABLE)) { minx = rca->x + bl; maxx = rca->x + rca->w - br; miny = rca->y + bt; maxy = rca->y + bt + hh; if ((cnt->flags & CNT_STATE_ALL) == CNT_STATE_MOVING || ((cnt->flags & CNT_STATE_ALL) == 0 && BETWEEN(mpos.x, minx, maxx) && BETWEEN(mpos.y, miny, maxy))) { cnt->flags |= CNT_STATE_MOVING; rect->x += ctx->mouse.delta.x; rect->y += ctx->mouse.delta.y; rca->x += ctx->mouse.delta.x; rca->y += ctx->mouse.delta.y; } } // right border resize if (TEST(cnt->flags, UG_CNT_RESIZE_RIGHT)) { minx = rca->x + rca->w - br; maxx = rca->x + rca->w; miny = rca->y; maxy = rca->y + rca->h; if ((cnt->flags & CNT_STATE_ALL) == CNT_STATE_RESIZE_R || ((cnt->flags & CNT_STATE_ALL) == 0 && BETWEEN(mpos.x, minx, maxx) && BETWEEN(mpos.y, miny, maxy))) { cnt->flags |= CNT_STATE_RESIZE_R; rect->w = MAX(10, rect->w + ctx->mouse.delta.x); rca->w = MAX(10, rca->w + ctx->mouse.delta.x); } } // left border resize if (TEST(cnt->flags, UG_CNT_RESIZE_LEFT)) { minx = rca->x; maxx = rca->x + bl; miny = rca->y; maxy = rca->y + rca->h; if ((cnt->flags & CNT_STATE_ALL) == CNT_STATE_RESIZE_L || ((cnt->flags & CNT_STATE_ALL) == 0 && BETWEEN(mpos.x, minx, maxx) && BETWEEN(mpos.y, miny, maxy))) { cnt->flags |= CNT_STATE_RESIZE_L; if (rect->w - ctx->mouse.delta.x >= 10) { rect->w -= ctx->mouse.delta.x; if (TEST(cnt->flags, UG_CNT_MOVABLE)) rect->x += ctx->mouse.delta.x; } if (rca->w - ctx->mouse.delta.x >= 10) { rca->w -= ctx->mouse.delta.x; rca->x += ctx->mouse.delta.x; } } } // bottom border resize if (TEST(cnt->flags, UG_CNT_RESIZE_BOTTOM)) { minx = rca->x; maxx = rca->x + rca->w; miny = rca->y + rca->h - bb; maxy = rca->y + rca->h; if ((cnt->flags & CNT_STATE_ALL) == CNT_STATE_RESIZE_B || ((cnt->flags & CNT_STATE_ALL) == 0 && BETWEEN(mpos.x, minx, maxx) && BETWEEN(mpos.y, miny, maxy))) { cnt->flags |= CNT_STATE_RESIZE_B; rect->h += ctx->mouse.delta.y; rca->h += ctx->mouse.delta.y; } } // top border resize if (TEST(cnt->flags, UG_CNT_RESIZE_TOP)) { minx = rca->x; maxx = rca->x + rca->w; miny = rca->y; maxy = rca->y + bt; if ((cnt->flags & CNT_STATE_ALL) == CNT_STATE_RESIZE_T || (BETWEEN(mpos.x, minx, maxx) && BETWEEN(mpos.y, miny, maxy))) { cnt->flags |= CNT_STATE_RESIZE_T; if (rect->h - ctx->mouse.delta.y >= 10) { rect->h -= ctx->mouse.delta.y; if (TEST(cnt->flags, UG_CNT_MOVABLE)) rect->y += ctx->mouse.delta.y; } if (rca->h - ctx->mouse.delta.y >= 10) { rca->h -= ctx->mouse.delta.y; rca->y += ctx->mouse.delta.y; } } } // TODO: what if I want to close a floating container? // Maybe add a UG_CNT_CLOSABLE flag? // TODO: what about scrolling? how do we know if we need to draw // a scroll bar? Maybe add that information inside the // container structure // push the appropriate rectangles to the drawing stack } void draw_container(ug_ctx_t *ctx, ug_container_t *cnt) { ug_rect_t draw_rect; const ug_style_t *s = ctx->style_px; int bl = s->cnt.border.l.size.i; int br = s->cnt.border.r.size.i; int bt = s->cnt.border.t.size.i; int bb = s->cnt.border.b.size.i; int hh = s->cnt.titlebar.height.size.i; // push outline draw_rect = cnt->rca; push_rect_command(ctx, &draw_rect, s->cnt.border.color); // titlebar if (cnt->flags & UG_CNT_MOVABLE) { draw_rect.x += bl; draw_rect.y += bt; draw_rect.w -= bl + br; draw_rect.h = hh; push_rect_command(ctx, &draw_rect, s->cnt.titlebar.bg_color); } // push main body draw_rect = cnt->rca; draw_rect.x += bl; draw_rect.y += bt; draw_rect.w -= bl + br; draw_rect.h -= bt + bb; if (cnt->flags & UG_CNT_MOVABLE) { draw_rect.y += bt + hh; draw_rect.h -= bt + hh; } push_rect_command(ctx, &draw_rect, s->cnt.bg_color); // TODO: push other rects } // a floating container can be placed anywhere and can be resized, acts like a // window inside another window int ug_container_floating(ug_ctx_t *ctx, const char *name, ug_div_t div) { TEST_CTX(ctx); // TODO: verify div ug_id_t id = name ? hash(name, strlen(name)) : hash(&div, sizeof(ug_div_t)); ug_container_t *cnt = get_container(ctx, id); if (cnt->id) { // nothing? maybe we can skip updating all dimensions and stuff } else { cnt->id = id; cnt->max_size = max_size; cnt->rect = div_to_rect(ctx, &div); cnt->flags = UG_CNT_MOVABLE | RESIZEALL | UG_CNT_SCROLL_X | UG_CNT_SCROLL_Y ; } // FIXME: floating containers should always stay on top position_container(ctx, cnt); handle_container(ctx, cnt); draw_container(ctx, cnt); return 0; } int ug_container_sidebar(ug_ctx_t *ctx, const char *name, ug_size_t size, int side) { TEST_CTX(ctx); ug_id_t id = 0; if (name) { id = hash(name, strlen(name)); } else { int blob[3] = { size.size.i, size.unit, side}; id = hash(blob, sizeof(blob)); } ug_container_t *cnt = get_container(ctx, id); if (cnt->id) { // nothing? maybe we can skip updating all dimensions and stuff } else { cnt->id = id; cnt->max_size = max_size; cnt->flags = UG_CNT_SCROLL_X | UG_CNT_SCROLL_Y; ug_rect_t rect = {0}; switch (side) { case UG_SIDE_BOTTOM: cnt->flags |= UG_CNT_RESIZE_TOP; // FIXME: we do not support relative zero position yet rect.y = -1; rect.h = size_to_px(ctx, size); break; case UG_SIDE_TOP: cnt->flags |= UG_CNT_RESIZE_BOTTOM; rect.h = size_to_px(ctx, size); break; case UG_SIDE_RIGHT: cnt->flags |= UG_CNT_RESIZE_LEFT; rect.x = -1; rect.w = size_to_px(ctx, size); break; case UG_SIDE_LEFT: cnt->flags |= UG_CNT_RESIZE_RIGHT; rect.w = size_to_px(ctx, size); break; default: return -1; } cnt->rect = rect; } position_container(ctx, cnt); handle_container(ctx, cnt); draw_container(ctx, cnt); // TODO: change available context space to reflect adding a sidebar return 0; } /*=============================================================================* * Input Handling * *=============================================================================*/ int ug_input_mousemove(ug_ctx_t *ctx, int x, int y) { TEST_CTX(ctx) if (x < 0 || y < 0) return 0; ctx->mouse.pos = (ug_vec2_t){.x = x, .y = y}; return 0; } int ug_input_mousedown(ug_ctx_t *ctx, unsigned int mask) { TEST_CTX(ctx); ctx->mouse.update |= mask; return 0; } int ug_input_mouseup(ug_ctx_t *ctx, unsigned int mask) { TEST_CTX(ctx); ctx->mouse.update |= mask; return 0; } /*=============================================================================* * Frame Handling * *=============================================================================*/ // At the beginning of a frame assume that all input has been passed to the context // update the mouse delta and reset the command stack int ug_frame_begin(ug_ctx_t *ctx) { TEST_CTX(ctx); // TODO: add a way to mark a container for removal from the stack, and then // remove it here to save space // update mouse delta ctx->mouse.delta.x = ctx->mouse.pos.x - ctx->mouse.last_pos.x; ctx->mouse.delta.y = ctx->mouse.pos.y - ctx->mouse.last_pos.y; // clear command stack RESET_STACK(ctx->cmd_stack); // update the origin ctx->origin.x = 0; ctx->origin.y = 0; ctx->origin.w = ctx->size.w; ctx->origin.h = ctx->size.h; // update hover index ug_vec2_t v = ctx->mouse.pos; for (int i = 0; i < ctx->cnt_stack.idx; i++) { ug_rect_t r = ctx->cnt_stack.items[i].rca; if (INTERSECTS(v, r)) { ctx->hover.cnt = ctx->cnt_stack.items[i].id; } } // update active container if (MOUSEDOWN(ctx, UG_BTN_LEFT)) { ctx->active.cnt = ctx->hover.cnt; } else if (MOUSEUP(ctx, UG_BTN_LEFT)) { ctx->last_active.cnt = ctx->active.cnt; ctx->active.cnt = 0; } //printf("active (%x) last active (%x)\n",ctx->active.cnt, ctx->last_active.cnt); return 0; } // At the end of a frame reset inputs int ug_frame_end(ug_ctx_t *ctx) { TEST_CTX(ctx); ctx->input_text[0] = '\0'; ctx->key.update = 0; ctx->mouse.hold ^= ctx->mouse.update; ctx->mouse.update = 0; ctx->mouse.scroll_delta = (ug_vec2_t){0}; ctx->mouse.last_pos = ctx->mouse.pos; // reset hover, it has to be calculated at frame beginning ctx->hover.cnt_last = ctx->hover.cnt; ctx->hover.elem_last = ctx->hover.elem; ctx->hover.cnt = 0; ctx->hover.elem = 0; ctx->last_ppi = ctx->ppi; ctx->last_ppm = ctx->ppm; ctx->last_ppd = ctx->ppd; ctx->frame++; return 0; }