SliderFloat() removed support for unbound/infinite slider, inconsistent. Use InputFloat()/DragFloat()

This commit is contained in:
ocornut 2015-04-03 15:10:07 +01:00
parent aac99819d6
commit 61d886e14b

275
imgui.cpp
View File

@ -136,6 +136,7 @@
Here is a change-log of API breaking changes, if you are using one of the functions listed, expect to have to fix some code.
- 2015/04/03 (1.38) - removed ImGuiCol_CheckHovered, ImGuiCol_CheckActive, replaced with the more general ImGuiCol_FrameBgHovered, ImGuiCol_FrameBgActive.
- 2014/04/03 (1.38) - removed support for passing -FLT_MAX..+FLT_MAX as the range for a SliderFloat(). Use DragFloat() or Inputfloat() instead.
- 2015/03/17 (1.36) - renamed GetItemRectMin()/GetItemRectMax()/IsMouseHoveringBox() to GetItemRectMin()/GetItemRectMax()/IsMouseHoveringRect(). Kept inline redirection function (will obsolete).
- 2015/03/15 (1.36) - renamed style.TreeNodeSpacing to style.IndentSpacing, ImGuiStyleVar_TreeNodeSpacing to ImGuiStyleVar_IndentSpacing
- 2015/03/13 (1.36) - renamed GetWindowIsFocused() to IsWindowFocused(). Kept inline redirection function (will obsolete).
@ -5049,12 +5050,11 @@ static bool SliderBehavior(const ImRect& frame_bb, const ImRect& slider_bb, ImGu
// Draw frame
RenderFrame(frame_bb.Min, frame_bb.Max, window->Color(ImGuiCol_FrameBg), true, style.FrameRounding);
const bool is_finite = (v_min != -FLT_MAX && v_min != FLT_MAX && v_max != -FLT_MAX && v_max != FLT_MAX);
const bool is_non_linear = fabsf(power - 1.0f) > 0.0001f;
const float slider_sz = horizontal ? slider_bb.GetWidth() : slider_bb.GetHeight();
float grab_sz;
if (decimal_precision > 0 || !is_finite)
if (decimal_precision > 0)
grab_sz = ImMin(style.GrabMinSize, slider_sz);
else
grab_sz = ImMin(ImMax(1.0f * (slider_sz / (v_max-v_min+1.0f)), style.GrabMinSize), slider_sz); // Integer sliders, if possible have the grab size represent 1 unit
@ -5064,117 +5064,114 @@ static bool SliderBehavior(const ImRect& frame_bb, const ImRect& slider_bb, ImGu
bool value_changed = false;
if (is_finite)
// For logarithmic sliders that cross over sign boundary we want the exponential increase to be symmetric around 0.0f
float linear_zero_pos = 0.0f; // 0.0->1.0f
if (v_min * v_max < 0.0f)
{
// For logarithmic sliders that cross over sign boundary we want the exponential increase to be symmetric around 0.0f
float linear_zero_pos = 0.0f; // 0.0->1.0f
if (v_min * v_max < 0.0f)
{
// Different sign
const float linear_dist_min_to_0 = powf(fabsf(0.0f - v_min), 1.0f/power);
const float linear_dist_max_to_0 = powf(fabsf(v_max - 0.0f), 1.0f/power);
linear_zero_pos = linear_dist_min_to_0 / (linear_dist_min_to_0+linear_dist_max_to_0);
}
else
{
// Same sign
linear_zero_pos = v_min < 0.0f ? 1.0f : 0.0f;
}
// Process clicking on the slider
if (g.ActiveId == id)
{
if (g.IO.MouseDown[0])
{
const float mouse_abs_pos = horizontal ? g.IO.MousePos.x : g.IO.MousePos.y;
float normalized_pos = ImClamp((mouse_abs_pos - slider_usable_pos_min) / slider_usable_sz, 0.0f, 1.0f);
if (!horizontal)
normalized_pos = 1.0f - normalized_pos;
float new_value;
if (is_non_linear)
{
// Account for logarithmic scale on both sides of the zero
if (normalized_pos < linear_zero_pos)
{
// Negative: rescale to the negative range before powering
float a = 1.0f - (normalized_pos / linear_zero_pos);
a = powf(a, power);
new_value = ImLerp(ImMin(v_max,0.f), v_min, a);
}
else
{
// Positive: rescale to the positive range before powering
float a;
if (fabsf(linear_zero_pos - 1.0f) > 1.e-6)
a = (normalized_pos - linear_zero_pos) / (1.0f - linear_zero_pos);
else
a = normalized_pos;
a = powf(a, power);
new_value = ImLerp(ImMax(v_min,0.0f), v_max, a);
}
}
else
{
// Linear slider
new_value = ImLerp(v_min, v_max, normalized_pos);
}
// Round past decimal precision
// 0->1, 1->0.1, 2->0.01, etc.
// So when our value is 1.99999 with a precision of 0.001 we'll end up rounding to 2.0
const float min_step = 1.0f / powf(10.0f, (float)decimal_precision);
const float remainder = fmodf(new_value, min_step);
if (remainder <= min_step*0.5f)
new_value -= remainder;
else
new_value += (min_step - remainder);
if (*v != new_value)
{
*v = new_value;
value_changed = true;
}
}
else
{
SetActiveId(0);
}
}
// Calculate slider grab positioning
float grab_t;
if (is_non_linear)
{
float v_clamped = ImClamp(*v, v_min, v_max);
if (v_clamped < 0.0f)
{
const float f = 1.0f - (v_clamped - v_min) / (ImMin(0.0f,v_max) - v_min);
grab_t = (1.0f - powf(f, 1.0f/power)) * linear_zero_pos;
}
else
{
const float f = (v_clamped - ImMax(0.0f,v_min)) / (v_max - ImMax(0.0f,v_min));
grab_t = linear_zero_pos + powf(f, 1.0f/power) * (1.0f - linear_zero_pos);
}
}
else
{
// Linear slider
grab_t = (ImClamp(*v, v_min, v_max) - v_min) / (v_max - v_min);
}
// Draw
if (!horizontal)
grab_t = 1.0f - grab_t;
const float grab_pos = ImLerp(slider_usable_pos_min, slider_usable_pos_max, grab_t);
ImRect grab_bb;
if (horizontal)
grab_bb = ImRect(ImVec2(grab_pos - grab_sz*0.5f, frame_bb.Min.y + 2.0f), ImVec2(grab_pos + grab_sz*0.5f, frame_bb.Max.y - 2.0f));
else
grab_bb = ImRect(ImVec2(frame_bb.Min.x + 2.0f, grab_pos - grab_sz*0.5f), ImVec2(frame_bb.Max.x - 2.0f, grab_pos + grab_sz*0.5f));
window->DrawList->AddRectFilled(grab_bb.Min, grab_bb.Max, window->Color(g.ActiveId == id ? ImGuiCol_SliderGrabActive : ImGuiCol_SliderGrab));
// Different sign
const float linear_dist_min_to_0 = powf(fabsf(0.0f - v_min), 1.0f/power);
const float linear_dist_max_to_0 = powf(fabsf(v_max - 0.0f), 1.0f/power);
linear_zero_pos = linear_dist_min_to_0 / (linear_dist_min_to_0+linear_dist_max_to_0);
}
else
{
// Same sign
linear_zero_pos = v_min < 0.0f ? 1.0f : 0.0f;
}
// Process clicking on the slider
if (g.ActiveId == id)
{
if (g.IO.MouseDown[0])
{
const float mouse_abs_pos = horizontal ? g.IO.MousePos.x : g.IO.MousePos.y;
float normalized_pos = ImClamp((mouse_abs_pos - slider_usable_pos_min) / slider_usable_sz, 0.0f, 1.0f);
if (!horizontal)
normalized_pos = 1.0f - normalized_pos;
float new_value;
if (is_non_linear)
{
// Account for logarithmic scale on both sides of the zero
if (normalized_pos < linear_zero_pos)
{
// Negative: rescale to the negative range before powering
float a = 1.0f - (normalized_pos / linear_zero_pos);
a = powf(a, power);
new_value = ImLerp(ImMin(v_max,0.f), v_min, a);
}
else
{
// Positive: rescale to the positive range before powering
float a;
if (fabsf(linear_zero_pos - 1.0f) > 1.e-6)
a = (normalized_pos - linear_zero_pos) / (1.0f - linear_zero_pos);
else
a = normalized_pos;
a = powf(a, power);
new_value = ImLerp(ImMax(v_min,0.0f), v_max, a);
}
}
else
{
// Linear slider
new_value = ImLerp(v_min, v_max, normalized_pos);
}
// Round past decimal precision
// 0->1, 1->0.1, 2->0.01, etc.
// So when our value is 1.99999 with a precision of 0.001 we'll end up rounding to 2.0
const float min_step = 1.0f / powf(10.0f, (float)decimal_precision);
const float remainder = fmodf(new_value, min_step);
if (remainder <= min_step*0.5f)
new_value -= remainder;
else
new_value += (min_step - remainder);
if (*v != new_value)
{
*v = new_value;
value_changed = true;
}
}
else
{
SetActiveId(0);
}
}
// Calculate slider grab positioning
float grab_t;
if (is_non_linear)
{
float v_clamped = ImClamp(*v, v_min, v_max);
if (v_clamped < 0.0f)
{
const float f = 1.0f - (v_clamped - v_min) / (ImMin(0.0f,v_max) - v_min);
grab_t = (1.0f - powf(f, 1.0f/power)) * linear_zero_pos;
}
else
{
const float f = (v_clamped - ImMax(0.0f,v_min)) / (v_max - ImMax(0.0f,v_min));
grab_t = linear_zero_pos + powf(f, 1.0f/power) * (1.0f - linear_zero_pos);
}
}
else
{
// Linear slider
grab_t = (ImClamp(*v, v_min, v_max) - v_min) / (v_max - v_min);
}
// Draw
if (!horizontal)
grab_t = 1.0f - grab_t;
const float grab_pos = ImLerp(slider_usable_pos_min, slider_usable_pos_max, grab_t);
ImRect grab_bb;
if (horizontal)
grab_bb = ImRect(ImVec2(grab_pos - grab_sz*0.5f, frame_bb.Min.y + 2.0f), ImVec2(grab_pos + grab_sz*0.5f, frame_bb.Max.y - 2.0f));
else
grab_bb = ImRect(ImVec2(frame_bb.Min.x + 2.0f, grab_pos - grab_sz*0.5f), ImVec2(frame_bb.Max.x - 2.0f, grab_pos + grab_sz*0.5f));
window->DrawList->AddRectFilled(grab_bb.Min, grab_bb.Max, window->Color(g.ActiveId == id ? ImGuiCol_SliderGrabActive : ImGuiCol_SliderGrab));
return value_changed;
}
@ -5216,8 +5213,6 @@ bool ImGui::SliderFloat(const char* label, float* v, float v_min, float v_max, c
int decimal_precision = 3;
ParseFormat(display_format, decimal_precision);
const bool is_finite = (v_min != -FLT_MAX && v_min != FLT_MAX && v_max != -FLT_MAX && v_max != FLT_MAX);
// Tabbing or CTRL-clicking on Slider turns it into an input box
bool start_text_input = false;
const bool tab_focus_requested = window->FocusItemRegister(g.ActiveId == id);
@ -5227,7 +5222,7 @@ bool ImGui::SliderFloat(const char* label, float* v, float v_min, float v_max, c
FocusWindow(window);
const bool is_ctrl_down = g.IO.KeyCtrl;
if (tab_focus_requested || is_ctrl_down || !is_finite)
if (tab_focus_requested || is_ctrl_down)
{
start_text_input = true;
g.ScalarAsInputTextId = 0;
@ -6685,7 +6680,7 @@ bool ImGui::Combo(const char* label, int* current_item, bool (*items_getter)(voi
if (label_size.x > 0)
RenderText(ImVec2(frame_bb.Max.x + style.ItemInnerSpacing.x, frame_bb.Min.y + style.FramePadding.y), label);
ImGui::PushID((int)id);
bool menu_toggled = false;
if (hovered)
@ -9729,31 +9724,32 @@ void ImGui::ShowTestWindow(bool* opened)
static int item2 = -1;
ImGui::Combo("combo scroll", &item2, items, IM_ARRAYSIZE(items));
static char str0[128] = "Hello, world!";
static int i0=123;
static float f0=0.001f;
ImGui::InputText("input text", str0, IM_ARRAYSIZE(str0));
ImGui::InputInt("input int", &i0);
ImGui::InputFloat("input float", &f0, 0.01f, 1.0f);
{
static char str0[128] = "Hello, world!";
static int i0=123;
static float f0=0.001f;
ImGui::InputText("input text", str0, IM_ARRAYSIZE(str0));
ImGui::InputInt("input int", &i0);
ImGui::InputFloat("input float", &f0, 0.01f, 1.0f);
static float vec4a[4] = { 0.10f, 0.20f, 0.30f, 0.44f };
//ImGui::InputFloat2("input float2", vec4a);
ImGui::InputFloat3("input float3", vec4a);
//ImGui::InputFloat4("input float4", vec4a);
static float vec4a[4] = { 0.10f, 0.20f, 0.30f, 0.44f };
ImGui::InputFloat3("input float3", vec4a);
}
static int i1=0;
static int i2=42;
ImGui::SliderInt("slider int 0..3", &i1, 0, 3);
ImGui::SliderInt("slider int -100..100", &i2, -100, 100);
{
static int i1=0;
static int i2=42;
ImGui::SliderInt("slider int 0..3", &i1, 0, 3);
ImGui::SliderInt("slider int -100..100", &i2, -100, 100);
static float f1=1.123f;
static float f2=0;
static float f3=123456789.0f;
ImGui::SliderFloat("slider float", &f1, 0.0f, 2.0f);
ImGui::SliderFloat("slider log float", &f2, -10.0f, 10.0f, "%.4f", 3.0f);
ImGui::SliderFloat("slider unbound", &f3, -FLT_MAX, FLT_MAX, "%.4f");
static float angle = 0.0f;
ImGui::SliderAngle("slider angle", &angle);
static float f1=1.123f;
static float f2=0;
static float f3=123456789.0f;
ImGui::SliderFloat("slider float", &f1, 0.0f, 2.0f);
ImGui::SliderFloat("slider log float", &f2, -10.0f, 10.0f, "%.4f", 3.0f);
static float angle = 0.0f;
ImGui::SliderAngle("slider angle", &angle);
}
static float col1[3] = { 1.0f,0.0f,0.2f };
static float col2[4] = { 0.4f,0.7f,0.0f,0.5f };
@ -9812,12 +9808,13 @@ void ImGui::ShowTestWindow(bool* opened)
if (i > 0) ImGui::SameLine();
ImGui::PushID(i);
ImGui::PushStyleColor(ImGuiCol_FrameBg, ImColor::HSV(i/7.0f, 0.5f, 0.5f));
ImGui::PushStyleColor(ImGuiCol_FrameBgHovered, ImColor::HSV(i/7.0f, 0.6f, 0.5f));
ImGui::PushStyleColor(ImGuiCol_FrameBgActive, ImColor::HSV(i/7.0f, 0.7f, 0.5f));
ImGui::PushStyleColor(ImGuiCol_SliderGrab, ImColor::HSV(i/7.0f, 0.9f, 0.9f));
ImGui::PushStyleColor(ImGuiCol_SliderGrabActive, ImColor::HSV(i/7.0f, 1.0f, 1.0f));
ImGui::VSliderFloat("##v", ImVec2(18,160), &values[i], 0.0f, 1.0f, "");
if (ImGui::IsItemActive() || ImGui::IsItemHovered())
ImGui::SetTooltip("%.3f", values[i]);
ImGui::PopStyleColor(3);
ImGui::PopStyleColor(4);
ImGui::PopID();
}
ImGui::PopID();