| /dports/devel/arm-none-eabi-gcc492/gcc-4.9.2/gcc/ada/ |
| H A D | a-numaux-darwin.adb | 130 Reduced_X : Double := abs X; variable
134 if Reduced_X > Pi / 4.0 then
135 Reduce (Reduced_X, Quadrant);
142 return Sine_Approx (-Reduced_X);
148 return Sine_Approx (Reduced_X);
152 return Cosine_Approx (Reduced_X);
160 Reduced_X : Double := X; variable
165 Reduce (Reduced_X, Quadrant);
169 return Sine_Approx (Reduced_X);
175 return Sine_Approx (-Reduced_X);
[all …]
|
| /dports/lang/gnat_util/gcc-6-20180516/gcc/ada/ |
| H A D | a-numaux-darwin.adb | 128 Reduced_X : Double := abs X; variable
132 if Reduced_X > Pi / 4.0 then
133 Reduce (Reduced_X, Quadrant);
140 return Sine_Approx (-Reduced_X);
146 return Sine_Approx (Reduced_X);
150 return Cosine_Approx (Reduced_X);
158 Reduced_X : Double := X; variable
163 Reduce (Reduced_X, Quadrant);
167 return Sine_Approx (Reduced_X);
173 return Sine_Approx (-Reduced_X);
[all …]
|
| H A D | a-numaux-x86.adb | 253 Reduced_X : Double := abs X; variable
258 if Reduced_X > Pi / 4.0 then
259 Reduce (Reduced_X, Quadrant);
265 Inputs => Double'Asm_Input ("0", Reduced_X));
283 Inputs => Double'Asm_Input ("0", Reduced_X));
438 Reduced_X : Double := X; variable
444 Reduce (Reduced_X, Quadrant);
468 Inputs => Double'Asm_Input ("0", Reduced_X));
479 Reduced_X : Double := X; variable
485 Reduce (Reduced_X, Quadrant);
[all …]
|
| /dports/lang/gcc48/gcc-4.8.5/gcc/ada/ |
| H A D | a-numaux-darwin.adb | 130 Reduced_X : Double := abs X; variable
134 if Reduced_X > Pi / 4.0 then
135 Reduce (Reduced_X, Quadrant);
142 return Sine_Approx (-Reduced_X);
148 return Sine_Approx (Reduced_X);
152 return Cosine_Approx (Reduced_X);
160 Reduced_X : Double := X; variable
165 Reduce (Reduced_X, Quadrant);
169 return Sine_Approx (Reduced_X);
175 return Sine_Approx (-Reduced_X);
[all …]
|
| H A D | a-numaux-x86.adb | 258 Reduced_X : Double := abs X; variable
263 if Reduced_X > Pi / 4.0 then
264 Reduce (Reduced_X, Quadrant);
270 Inputs => Double'Asm_Input ("0", Reduced_X));
288 Inputs => Double'Asm_Input ("0", Reduced_X));
443 Reduced_X : Double := X; variable
449 Reduce (Reduced_X, Quadrant);
473 Inputs => Double'Asm_Input ("0", Reduced_X));
484 Reduced_X : Double := X; variable
490 Reduce (Reduced_X, Quadrant);
[all …]
|
| /dports/devel/mingw32-gcc/gcc-4.8.1/gcc/ada/ |
| H A D | a-numaux-darwin.adb | 130 Reduced_X : Double := abs X; variable
134 if Reduced_X > Pi / 4.0 then
135 Reduce (Reduced_X, Quadrant);
142 return Sine_Approx (-Reduced_X);
148 return Sine_Approx (Reduced_X);
152 return Cosine_Approx (Reduced_X);
160 Reduced_X : Double := X; variable
165 Reduce (Reduced_X, Quadrant);
169 return Sine_Approx (Reduced_X);
175 return Sine_Approx (-Reduced_X);
[all …]
|
| /dports/lang/gcc6-aux/gcc-6-20180516/gcc/ada/ |
| H A D | a-numaux-darwin.adb | 128 Reduced_X : Double := abs X; variable
132 if Reduced_X > Pi / 4.0 then
133 Reduce (Reduced_X, Quadrant);
140 return Sine_Approx (-Reduced_X);
146 return Sine_Approx (Reduced_X);
150 return Cosine_Approx (Reduced_X);
158 Reduced_X : Double := X; variable
163 Reduce (Reduced_X, Quadrant);
167 return Sine_Approx (Reduced_X);
173 return Sine_Approx (-Reduced_X);
[all …]
|
| /dports/devel/aarch64-none-elf-gcc/gcc-8.4.0/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| H A D | a-numaux__x86.adb | 260 Reduced_X : Double := abs X; variable
265 if Reduced_X > Pi / 4.0 then
266 Reduce (Reduced_X, Quadrant);
272 Inputs => Double'Asm_Input ("0", Reduced_X));
293 Inputs => Double'Asm_Input ("0", Reduced_X));
448 Reduced_X : Double := X; variable
454 Reduce (Reduced_X, Quadrant);
481 Inputs => Double'Asm_Input ("0", Reduced_X));
492 Reduced_X : Double := X; variable
498 Reduce (Reduced_X, Quadrant);
[all …]
|
| /dports/devel/arm-none-eabi-gcc/gcc-8.4.0/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| H A D | a-numaux__x86.adb | 260 Reduced_X : Double := abs X; variable
265 if Reduced_X > Pi / 4.0 then
266 Reduce (Reduced_X, Quadrant);
272 Inputs => Double'Asm_Input ("0", Reduced_X));
293 Inputs => Double'Asm_Input ("0", Reduced_X));
448 Reduced_X : Double := X; variable
454 Reduce (Reduced_X, Quadrant);
481 Inputs => Double'Asm_Input ("0", Reduced_X));
492 Reduced_X : Double := X; variable
498 Reduce (Reduced_X, Quadrant);
[all …]
|
| /dports/devel/riscv64-gcc/gcc-8.3.0/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| H A D | a-numaux__x86.adb | 260 Reduced_X : Double := abs X; variable
265 if Reduced_X > Pi / 4.0 then
266 Reduce (Reduced_X, Quadrant);
272 Inputs => Double'Asm_Input ("0", Reduced_X));
293 Inputs => Double'Asm_Input ("0", Reduced_X));
448 Reduced_X : Double := X; variable
454 Reduce (Reduced_X, Quadrant);
481 Inputs => Double'Asm_Input ("0", Reduced_X));
492 Reduced_X : Double := X; variable
498 Reduce (Reduced_X, Quadrant);
[all …]
|
| /dports/devel/avr-gcc/gcc-10.2.0/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| H A D | a-numaux__x86.adb | 260 Reduced_X : Double := abs X; variable
265 if Reduced_X > Pi / 4.0 then
266 Reduce (Reduced_X, Quadrant);
272 Inputs => Double'Asm_Input ("0", Reduced_X));
293 Inputs => Double'Asm_Input ("0", Reduced_X));
448 Reduced_X : Double := X; variable
454 Reduce (Reduced_X, Quadrant);
481 Inputs => Double'Asm_Input ("0", Reduced_X));
492 Reduced_X : Double := X; variable
498 Reduce (Reduced_X, Quadrant);
[all …]
|
| /dports/lang/gcc10-devel/gcc-10-20211008/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| H A D | a-numaux__x86.adb | 260 Reduced_X : Double := abs X; variable
265 if Reduced_X > Pi / 4.0 then
266 Reduce (Reduced_X, Quadrant);
272 Inputs => Double'Asm_Input ("0", Reduced_X));
293 Inputs => Double'Asm_Input ("0", Reduced_X));
448 Reduced_X : Double := X; variable
454 Reduce (Reduced_X, Quadrant);
481 Inputs => Double'Asm_Input ("0", Reduced_X));
492 Reduced_X : Double := X; variable
498 Reduce (Reduced_X, Quadrant);
[all …]
|
| /dports/devel/riscv32-unknown-elf-gcc/gcc-8.4.0/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| /dports/lang/gcc9-aux/gcc-9.1.0/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| /dports/lang/gcc10/gcc-10.3.0/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| /dports/lang/gcc9-devel/gcc-9-20211007/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| /dports/lang/gcc8/gcc-8.5.0/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| /dports/devel/riscv64-none-elf-gcc/gcc-8.4.0/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| /dports/lang/gcc9/gcc-9.4.0/gcc/ada/libgnat/ |
| H A D | a-numaux__darwin.adb | 156 Reduced_X : Double := abs X; variable
160 if Reduced_X > Pi / 4.0 then
161 Reduce (Reduced_X, Quadrant);
168 return Sine_Approx (-Reduced_X);
174 return Sine_Approx (Reduced_X);
178 return Cosine_Approx (Reduced_X);
186 Reduced_X : Double := X; variable
191 Reduce (Reduced_X, Quadrant);
195 return Sine_Approx (Reduced_X);
201 return Sine_Approx (-Reduced_X);
[all …]
|
| H A D | a-numaux__x86.adb | 260 Reduced_X : Double := abs X; variable
265 if Reduced_X > Pi / 4.0 then
266 Reduce (Reduced_X, Quadrant);
272 Inputs => Double'Asm_Input ("0", Reduced_X));
293 Inputs => Double'Asm_Input ("0", Reduced_X));
448 Reduced_X : Double := X; variable
454 Reduce (Reduced_X, Quadrant);
481 Inputs => Double'Asm_Input ("0", Reduced_X));
492 Reduced_X : Double := X; variable
498 Reduce (Reduced_X, Quadrant);
[all …]
|