Added additional batch of documentation
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nuklear.h
251
nuklear.h
@ -620,7 +620,7 @@ NK_API void nk_set_user_data(struct nk_context*, nk_handle handle);
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* Usage
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* Usage
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* -------------------
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* -------------------
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* Input state needs to be provided to nuklear by first calling `nk_input_begin`
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* Input state needs to be provided to nuklear by first calling `nk_input_begin`
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* which reset internal state like delta mouse position and button transistions.
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* which resets internal state like delta mouse position and button transistions.
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* After `nk_input_begin` all current input state needs to be provided. This includes
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* After `nk_input_begin` all current input state needs to be provided. This includes
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* mouse motion, button and key pressed and released, text input and scrolling.
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* mouse motion, button and key pressed and released, text input and scrolling.
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* Both event- or state-based input handling are supported by this API
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* Both event- or state-based input handling are supported by this API
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@ -785,6 +785,7 @@ NK_API void nk_input_end(struct nk_context*);
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*
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*
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* const struct nk_command *cmd = 0;
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* const struct nk_command *cmd = 0;
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* nk_foreach(cmd, &ctx) {
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* nk_foreach(cmd, &ctx) {
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* switch (cmd->type) {
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* case NK_COMMAND_LINE:
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* case NK_COMMAND_LINE:
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* your_draw_line_function(...)
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* your_draw_line_function(...)
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* break;
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* break;
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@ -818,6 +819,7 @@ NK_API void nk_input_end(struct nk_context*);
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*
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*
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* const struct nk_command *cmd = 0;
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* const struct nk_command *cmd = 0;
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* nk_foreach(cmd, &ctx) {
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* nk_foreach(cmd, &ctx) {
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* switch (cmd->type) {
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* case NK_COMMAND_LINE:
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* case NK_COMMAND_LINE:
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* your_draw_line_function(...)
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* your_draw_line_function(...)
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* break;
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* break;
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@ -831,7 +833,87 @@ NK_API void nk_input_end(struct nk_context*);
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* }
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* }
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* nk_free(&ctx);
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* nk_free(&ctx);
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*
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*
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* While using draw commands makes sense for higher abstracted platforms like
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* You probably noticed that you have to draw all of the UI each frame which is
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* quite wasteful. While the actual UI updating loop is quite fast rendering
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* without actually needing it is not. So there are multiple things you could do.
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*
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* First is only update on input. This ofcourse is only an option if your
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* application only depends on the UI and does not require any outside calculations.
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* If you actually only update on input make sure to update the UI to times each
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* frame and call `nk_clear` directly after the first pass and only draw in
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* the second pass.
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*
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* struct nk_context ctx;
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* nk_init_xxx(&ctx, ...);
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* while (1) {
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* [...wait for input ]
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*
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* [...do two UI passes ...]
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* do_ui(...)
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* nk_clear(&ctx);
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* do_ui(...)
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*
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* const struct nk_command *cmd = 0;
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* nk_foreach(cmd, &ctx) {
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* switch (cmd->type) {
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* case NK_COMMAND_LINE:
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* your_draw_line_function(...)
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* break;
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* case NK_COMMAND_RECT
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* your_draw_rect_function(...)
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* break;
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* case ...:
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* [...]
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* }
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* nk_clear(&ctx);
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* }
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* nk_free(&ctx);
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*
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* The second probably more applicable trick is to only draw if anything changed.
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* It is not really useful for applications with continous draw loop but
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* quite useful for desktop applications. To actually get nuklear to only
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* draw on changes you first have to define `NK_ZERO_COMMAND_MEMORY` and
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* allocate a memory buffer that will store each unique drawing output.
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* After each frame you compare the draw command memory inside the library
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* with your allocated buffer by memcmp. If memcmp detects differences
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* you have to copy the nuklears command buffer into the allocated buffer
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* and then draw like usual (this example uses fixed memory but you could
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* use dynamically allocated memory).
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*
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* [... other defines ...]
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* #define NK_ZERO_COMMAND_MEMORY
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* #include "nuklear.h"
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*
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* struct nk_context ctx;
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* void *last = calloc(1,64*1024);
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* void *buf = calloc(1,64*1024);
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* nk_init_fixed(&ctx, buf, 64*1024);
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* while (1) {
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* [...input...]
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* [...ui...]
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*
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* void *cmds = nk_buffer_memory(&ctx.memory);
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* if (memcmp(cmds, last, ctx.memory.allocated)) {
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* memcpy(last,cmds,ctx.memory.allocated);
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* const struct nk_command *cmd = 0;
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* nk_foreach(cmd, &ctx) {
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* switch (cmd->type) {
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* case NK_COMMAND_LINE:
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* your_draw_line_function(...)
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* break;
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* case NK_COMMAND_RECT
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* your_draw_rect_function(...)
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* break;
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* case ...:
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* [...]
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* }
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* }
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* }
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* nk_clear(&ctx);
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* }
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* nk_free(&ctx);
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*
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* Finally while using draw commands makes sense for higher abstracted platforms like
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* X11 and Win32 or drawing libraries it is often desirable to use graphics
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* X11 and Win32 or drawing libraries it is often desirable to use graphics
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* hardware directly. Therefore it is possible to just define
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* hardware directly. Therefore it is possible to just define
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* `NK_INCLUDE_VERTEX_BUFFER_OUTPUT` which includes optional vertex output.
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* `NK_INCLUDE_VERTEX_BUFFER_OUTPUT` which includes optional vertex output.
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@ -867,6 +949,9 @@ NK_API void nk_input_end(struct nk_context*);
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* if (!cmd->elem_count) continue;
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* if (!cmd->elem_count) continue;
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* [...]
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* [...]
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* }
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* }
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* nk_buffer_free(&cms);
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* nk_buffer_free(&verts);
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* nk_buffer_free(&idx);
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*
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*
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* Reference
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* Reference
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* -------------------
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* -------------------
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@ -896,9 +981,9 @@ struct nk_convert_config {
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float global_alpha; /* global alpha value */
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float global_alpha; /* global alpha value */
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enum nk_anti_aliasing line_AA; /* line anti-aliasing flag can be turned off if you are tight on memory */
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enum nk_anti_aliasing line_AA; /* line anti-aliasing flag can be turned off if you are tight on memory */
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enum nk_anti_aliasing shape_AA; /* shape anti-aliasing flag can be turned off if you are tight on memory */
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enum nk_anti_aliasing shape_AA; /* shape anti-aliasing flag can be turned off if you are tight on memory */
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unsigned int circle_segment_count; /* number of segments used for circles: default to 22 */
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unsigned circle_segment_count; /* number of segments used for circles: default to 22 */
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unsigned int arc_segment_count; /* number of segments used for arcs: default to 22 */
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unsigned arc_segment_count; /* number of segments used for arcs: default to 22 */
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unsigned int curve_segment_count; /* number of segments used for curves: default to 22 */
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unsigned curve_segment_count; /* number of segments used for curves: default to 22 */
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struct nk_draw_null_texture null; /* handle to texture with a white pixel for shape drawing */
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struct nk_draw_null_texture null; /* handle to texture with a white pixel for shape drawing */
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const struct nk_draw_vertex_layout_element *vertex_layout; /* describes the vertex output format and packing */
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const struct nk_draw_vertex_layout_element *vertex_layout; /* describes the vertex output format and packing */
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nk_size vertex_size; /* sizeof one vertex for vertex packing */
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nk_size vertex_size; /* sizeof one vertex for vertex packing */
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@ -996,7 +1081,7 @@ NK_API const struct nk_draw_command* nk__draw_next(const struct nk_draw_command*
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* is recommended to check the return value of `nk_begin_xxx` and only process
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* is recommended to check the return value of `nk_begin_xxx` and only process
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* widgets inside the window if the value is not 0. Either way you have to call
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* widgets inside the window if the value is not 0. Either way you have to call
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* `nk_end` at the end of window declarations. Furthmore do not attempt to
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* `nk_end` at the end of window declarations. Furthmore do not attempt to
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* nest `nk_begin_xxx` call which will hopefully result in an assert or if not
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* nest `nk_begin_xxx` calls which will hopefully result in an assert or if not
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* in a segmation fault.
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* in a segmation fault.
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*
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*
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* if (nk_begin_xxx(...) {
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* if (nk_begin_xxx(...) {
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@ -1005,7 +1090,7 @@ NK_API const struct nk_draw_command* nk__draw_next(const struct nk_draw_command*
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* nk_end(ctx);
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* nk_end(ctx);
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*
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*
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* In the grand concept window and widget declarations need to occur after input
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* In the grand concept window and widget declarations need to occur after input
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* handling and before drawing to screen. Not doing so can results in higher
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* handling and before drawing to screen. Not doing so can result in higher
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* latency or at worst invalid behavior. Furthermore make sure that `nk_clear`
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* latency or at worst invalid behavior. Furthermore make sure that `nk_clear`
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* is called at the end of the frame. While nuklears default platform backends
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* is called at the end of the frame. While nuklears default platform backends
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* already call `nk_clear` for you if you write your own backend not calling
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* already call `nk_clear` for you if you write your own backend not calling
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@ -1320,16 +1405,16 @@ NK_API void nk_window_show_if(struct nk_context*, const char *name, enum nk_show
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*
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*
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* ============================================================================= */
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* ============================================================================= */
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/* Layouting in general describes placing widget inside a window with position and size.
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/* Layouting in general describes placing widget inside a window with position and size.
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* While in this particular implementation there are four different API for layouting
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* While in this particular implementation there are five different APIs for layouting
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* each with different trade offs between control and ease of use.
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* each with different trade offs between control and ease of use.
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*
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*
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* All layouting methodes in this library are based around the concept of a row.
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* All layouting methodes in this library are based around the concept of a row.
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* A row has a height the window grows by and a number of columns and each
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* A row has a height the window content grows by and a number of columns and each
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* layouting method specifies how each widget is placed inside the row.
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* layouting method specifies how each widget is placed inside the row.
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* After a row has been allcocated by calling a layouting functions and then
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* After a row has been allocated by calling a layouting functions and then
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* filled with widgets will advance an internal pointer to over the allocated row.
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* filled with widgets will advance an internal pointer over the allocated row.
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*
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*
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* To acually define a layout you just call the approriate layouting functions
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* To acually define a layout you just call the appropriate layouting function
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* and each subsequnetial widget call will place the widget as specified. Important
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* and each subsequnetial widget call will place the widget as specified. Important
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* here is that if you define more widgets then columns defined inside the layout
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* here is that if you define more widgets then columns defined inside the layout
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* functions it will allocate the next row without you having to make another layouting
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* functions it will allocate the next row without you having to make another layouting
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@ -1352,9 +1437,9 @@ NK_API void nk_window_show_if(struct nk_context*, const char *name, enum nk_show
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* -------------------
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* -------------------
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* 1.) nk_layout_row_dynamic
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* 1.) nk_layout_row_dynamic
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* The easiest layouting function is `nk_layout_row_dynamic`. It provides each
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* The easiest layouting function is `nk_layout_row_dynamic`. It provides each
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* widgets with the same horizontal space inside the row and dynamically grows
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* widgets with same horizontal space inside the row and dynamically grows
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* if the owning window grows in width each widget will grow as well. So the
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* if the owning window grows in width. So the number of columns dictates
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* number of columns calculates the size of each widget dynamically by formula:
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* the size of each widget dynamically by formula:
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*
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*
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* widget_width = (window_width - padding - spacing) * (1/colum_count)
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* widget_width = (window_width - padding - spacing) * (1/colum_count)
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*
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*
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@ -1374,6 +1459,132 @@ NK_API void nk_window_show_if(struct nk_context*, const char *name, enum nk_show
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* }
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* }
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* nk_end(...);
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* nk_end(...);
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*
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*
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* 2.) nk_layout_row_static
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* Another easy layouting function is `nk_layout_row_static`. It provides each
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* widget with same horizontal pixel width inside the row and does not grow
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* if the owning window scales smaller or bigger.
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*
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* if (nk_begin_xxx(...) {
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* // first row with height: 30 composed of two widgets with width: 80
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* nk_layout_row_static(&ctx, 30, 80, 2);
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* nk_widget(...);
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* nk_widget(...);
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*
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* // second row with same parameter as defined above
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* nk_widget(...);
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* nk_widget(...);
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* }
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* nk_end(...);
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*
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* 3.) nk_layout_row_xxx
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* A little bit more advanced layouting API are functions `nk_layout_row_begin`,
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* `nk_layout_row_push` and `nk_layout_row_end`. They allow to directly
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* specify each column pixel or window ratio in a row. It support either
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* directly setting per column pixel width or widget window ratio but not
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* both. Furthermore it is a immediate mode API so each value is directly
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* pushed before calling a widget. Therefore the layout is not automatically
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* repeating like the last two layouting functions.
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*
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* if (nk_begin_xxx(...) {
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* // first row with height: 25 composed of two widgets with width 60 and 40
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* nk_layout_row_begin(ctx, NK_STATIC, 25, 2);
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* nk_layout_row_push(ctx, 60);
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* nk_widget(...);
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* nk_layout_row_push(ctx, 40);
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* nk_widget(...);
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* nk_layout_row_end(ctx);
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*
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* // second row with height: 25 composed of two widgets with window ratio 0.25 and 0.75
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* nk_layout_row_begin(ctx, NK_DYNAMIC, 25, 2);
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* nk_layout_row_push(ctx, 0.25f);
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* nk_widget(...);
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* nk_layout_row_push(ctx, 0.75f);
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* nk_widget(...);
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* nk_layout_row_end(ctx);
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* }
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* nk_end(...);
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*
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* 4.) nk_layout_row
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* The retain mode counterpart to API nk_layout_row_xxx is the single nk_layout_row
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* functions. Instead of pushing either pixel or window ratio for every widget
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* it allows to define it by array. The trade of for less control is that
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* `nk_layout_row` is automatically repeating. Otherwise the behavior is the
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* same.
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*
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* if (nk_begin_xxx(...) {
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* // two rows with height: 30 composed of two widgets with width 60 and 40
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* const float size[] = {60,40};
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* nk_layout_row(ctx, NK_STATIC, 30, 2, ratio);
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* nk_widget(...);
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* nk_widget(...);
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* nk_widget(...);
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* nk_widget(...);
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*
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* // two rows with height: 30 composed of two widgets with window ratio 0.25 and 0.75
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* const float ratio[] = {0.25, 0.75};
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* nk_layout_row(ctx, NK_DYNAMIC, 30, 2, ratio);
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* nk_widget(...);
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* nk_widget(...);
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* nk_widget(...);
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* nk_widget(...);
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* }
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* nk_end(...);
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*
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* 5.) nk_layout_row_template_xxx
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* The most complex and second most flexible API is a simplified flexbox version without
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* line wrapping and weights for dynamic widgets. It is an immediate mode API but
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* unlike `nk_layout_row_xxx` it has auto repeat behavior and needs to be called
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* before calling the templated widgets.
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* The row template layout has three different per widget size specifier. The first
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* one is the static widget size specifier with fixed widget pixel width. They do
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* not grow if the row grows and will always stay the same. The second size
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* specifier is nk_layout_row_template_push_variable which defines a
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* minumum widget size but it also can grow if more space is available not taken
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* by other widgets. Finally there are dynamic widgets which are completly flexible
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* and unlike variable widgets can even shrink to zero if not enough space
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* is provided.
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*
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* if (nk_begin_xxx(...) {
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* // two rows with height: 30 composed of two widgets with width 60 and 40
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* nk_layout_row_template_begin(ctx, 30);
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* nk_layout_row_template_push_dynamic(ctx);
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* nk_layout_row_template_push_variable(ctx, 80);
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* nk_layout_row_template_push_static(ctx, 80);
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* nk_layout_row_template_end(ctx);
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*
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* nk_widget(...); // dynamic widget completly can go to zero
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* nk_widget(...); // variable widget with min 80 pixel but can grow bigger if enough space
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* nk_widget(...); // static widget with fixed 80 pixel width
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* }
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* nk_end(...);
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*
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* 6.) nk_layout_space_xxx
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* Finally the most flexible API directly allows you to place widgets inside the
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* window. The space layout API is an immediate mode API which does not support
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* row auto repeat and directly sets position and size of a widget. Position
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* and size hereby can be either specified as ratio of alloated space or
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* allocated space local position and pixel size. Since this API is quite
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* powerfull there are a number of utility functions to get the available space
|
||||||
|
* and convert between local allocated space and screen space.
|
||||||
|
*
|
||||||
|
* if (nk_begin_xxx(...) {
|
||||||
|
* // static row with height: 500 (you can set column count to INT_MAX if you don't want to be bothered)
|
||||||
|
* nk_layout_space_begin(ctx, NK_STATIC, 500, INT_MAX);
|
||||||
|
* nk_layout_space_push(ctx, nk_rect(0,0,150,200));
|
||||||
|
* nk_widget(...);
|
||||||
|
* nk_layout_space_push(ctx, nk_rect(200,200,100,200));
|
||||||
|
* nk_widget(...);
|
||||||
|
* nk_layout_space_end(ctx);
|
||||||
|
*
|
||||||
|
* // dynamic row with height: 500 (you can set column count to INT_MAX if you don't want to be bothered)
|
||||||
|
* nk_layout_space_begin(ctx, NK_DYNAMIC, 500, INT_MAX);
|
||||||
|
* nk_layout_space_push(ctx, nk_rect(0.5,0.5,0.1,0.1));
|
||||||
|
* nk_widget(...);
|
||||||
|
* nk_layout_space_push(ctx, nk_rect(0.7,0.6,0.1,0.1));
|
||||||
|
* nk_widget(...);
|
||||||
|
* }
|
||||||
|
* nk_end(...);
|
||||||
|
*
|
||||||
* Reference
|
* Reference
|
||||||
* -------------------
|
* -------------------
|
||||||
* nk_layout_row_dynamic
|
* nk_layout_row_dynamic
|
||||||
@ -1666,8 +1877,8 @@ enum nk_edit_events {
|
|||||||
NK_EDIT_COMMITED = NK_FLAG(4) /* edit widget has received an enter and lost focus */
|
NK_EDIT_COMMITED = NK_FLAG(4) /* edit widget has received an enter and lost focus */
|
||||||
};
|
};
|
||||||
NK_API nk_flags nk_edit_string(struct nk_context*, nk_flags, char *buffer, int *len, int max, nk_plugin_filter);
|
NK_API nk_flags nk_edit_string(struct nk_context*, nk_flags, char *buffer, int *len, int max, nk_plugin_filter);
|
||||||
NK_API nk_flags nk_edit_buffer(struct nk_context*, nk_flags, struct nk_text_edit*, nk_plugin_filter);
|
|
||||||
NK_API nk_flags nk_edit_string_zero_terminated(struct nk_context*, nk_flags, char *buffer, int max, nk_plugin_filter);
|
NK_API nk_flags nk_edit_string_zero_terminated(struct nk_context*, nk_flags, char *buffer, int max, nk_plugin_filter);
|
||||||
|
NK_API nk_flags nk_edit_buffer(struct nk_context*, nk_flags, struct nk_text_edit*, nk_plugin_filter);
|
||||||
NK_API void nk_edit_focus(struct nk_context*, nk_flags flags);
|
NK_API void nk_edit_focus(struct nk_context*, nk_flags flags);
|
||||||
NK_API void nk_edit_unfocus(struct nk_context*);
|
NK_API void nk_edit_unfocus(struct nk_context*);
|
||||||
/* =============================================================================
|
/* =============================================================================
|
||||||
@ -7644,7 +7855,7 @@ nk_draw_list_alloc_elements(struct nk_draw_list *list, nk_size count)
|
|||||||
return ids;
|
return ids;
|
||||||
}
|
}
|
||||||
|
|
||||||
static int
|
NK_INTERN int
|
||||||
nk_draw_vertex_layout_element_is_end_of_layout(
|
nk_draw_vertex_layout_element_is_end_of_layout(
|
||||||
const struct nk_draw_vertex_layout_element *element)
|
const struct nk_draw_vertex_layout_element *element)
|
||||||
{
|
{
|
||||||
@ -7652,7 +7863,7 @@ nk_draw_vertex_layout_element_is_end_of_layout(
|
|||||||
element->format == NK_FORMAT_COUNT);
|
element->format == NK_FORMAT_COUNT);
|
||||||
}
|
}
|
||||||
|
|
||||||
static void
|
NK_INTERN void
|
||||||
nk_draw_vertex_color(void *attribute, const float *values,
|
nk_draw_vertex_color(void *attribute, const float *values,
|
||||||
enum nk_draw_vertex_layout_format format)
|
enum nk_draw_vertex_layout_format format)
|
||||||
{
|
{
|
||||||
@ -7718,7 +7929,7 @@ nk_draw_vertex_color(void *attribute, const float *values,
|
|||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
static void
|
NK_INTERN void
|
||||||
nk_draw_vertex_element(void *dst, const float *values, int value_count,
|
nk_draw_vertex_element(void *dst, const float *values, int value_count,
|
||||||
enum nk_draw_vertex_layout_format format)
|
enum nk_draw_vertex_layout_format format)
|
||||||
{
|
{
|
||||||
@ -9018,7 +9229,7 @@ nk_rect_original_order(const void *a, const void *b)
|
|||||||
return (p->was_packed < q->was_packed) ? -1 : (p->was_packed > q->was_packed);
|
return (p->was_packed < q->was_packed) ? -1 : (p->was_packed > q->was_packed);
|
||||||
}
|
}
|
||||||
|
|
||||||
static void
|
NK_INTERN void
|
||||||
nk_rp_qsort(struct nk_rp_rect *array, unsigned int len, int(*cmp)(const void*,const void*))
|
nk_rp_qsort(struct nk_rp_rect *array, unsigned int len, int(*cmp)(const void*,const void*))
|
||||||
{
|
{
|
||||||
/* iterative quick sort */
|
/* iterative quick sort */
|
||||||
|
Loading…
Reference in New Issue
Block a user